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Lecture
Simon Problem 4: Quantum State and Complexity Analysis
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Related lectures (26)
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Quantum Computing: Introduction
Covers quantum computing basics, quantum algorithms, error correction, and quantum bit manipulation.
Solving Parity Games in Practice
Explores practical aspects of solving parity games, including winning strategies, algorithms, complexity, determinism, and heuristic approaches.
Elements of computational complexity
Covers classical and quantum computational complexity concepts and implications.
Quantum Computation: Mechanisms and Advantages of Restricted Models
Covers the mechanisms behind quantum computation and explores the advantages of restricted computational models.
Algorithmic Complexity: Travel Time Analysis
Covers algorithmic complexity and travel time analysis, focusing on measuring the time taken by algorithms and evaluating their performance.
The Deutsch and Deutsch-Jozsa Algorithms
Covers the Deutsch and Deutsch-Jozsa algorithms in quantum computing, explaining the principles behind them and their implications.
Correctness and Soundness of the Qubit Test
Explores the correctness and soundness of the Qubit Test, emphasizing probabilistic algorithms, trapdoors, and function inversion.
Quantum Circuits: Model and Computation
Covers quantum circuits, computation model, unitary inclusion, simulation, precision, qubits, and global aspects.
The Quantum Fourier Transform
Covers the Quantum Fourier Transform and its application in quantum computing, explaining the process of input values computation and the concept of complex numbers.
Quantum Phase Estimation
Explains the Quantum Phase Estimation (QPE) algorithm and its complexity using two registers and SWAP gates.
