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Lecture
Quantum Information: Basics and Applications
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Related lectures (31)
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Quantum Computing: Fundamentals and Applications
Covers the fundamentals of quantum computing, including qubit realization, scalable quantum computers, quantum communication, and quantum algorithms.
The Deutsch and Deutsch-Jozsa Algorithms
Covers the Deutsch and Deutsch-Jozsa algorithms in quantum computing, explaining the principles behind them and their implications.
Quantum Computation: Mechanisms and Advantages of Restricted Models
Covers the mechanisms behind quantum computation and explores the advantages of restricted computational models.
Quantum and Nanocomputing
Explores quantum computing fundamentals, quantum Fourier transform, RSA encryption, Shor's algorithm, and experimental implementations.
Quantum Principles
Covers the fundamental principles of quantum computing and unitary evolution in quantum systems.
Quantum Gates: C-NOT and Toffoli
Covers the principles behind quantum gates, focusing on the C-NOT and Toffoli gates.
Quantum Computing: Introduction
Covers quantum computing basics, quantum algorithms, error correction, and quantum bit manipulation.
Quantum Information and Computing
Covers quantum information, computing, algorithms, error correction, and challenges in the field.
Quantum computing: basics
Introduces the basics of quantum computing, covering qubits, superposition, entanglement, quantum gates, and algorithms, highlighting the efficiency of quantum computation.
Quantum Phase Estimation
Explains the Quantum Phase Estimation (QPE) algorithm and its complexity using two registers and SWAP gates.
