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Lecture
Quantum Approximation: Optimization Algorithm
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Related lectures (32)
The Paradigm of Digital Quantum Computation
Discusses digital quantum computation, focusing on gate implementation and circuit construction.
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 and Nanocomputing
Explores quantum computing fundamentals, quantum Fourier transform, RSA encryption, Shor's algorithm, and experimental implementations.
Cryo-CMOS electrical interfaces for large-scale quantum computers
Delves into Cryo-CMOS technology for quantum computers, focusing on challenges and advancements in cryogenic CMOS circuits.
Quantum Computation: Mechanisms and Advantages of Restricted Models
Covers the mechanisms behind quantum computation and explores the advantages of restricted computational models.
Quantum Computing Basics
Covers the basics of quantum computing, focusing on superconducting qubits, scaling challenges, and potential applications.
Quantum Information and Computing
Covers quantum information, computing, algorithms, error correction, and challenges in the field.
Stabilizer Codes
Covers the stabilizer formalism in quantum information and error correction.
Quantum Computing: Introduction
Covers quantum computing basics, quantum algorithms, error correction, and quantum bit manipulation.
Quantum Learning: Complexity and Predictive Models
Covers the complexity and learnability in complex quantum systems, focusing on quantum advantages in learning and predicting properties of quantum states.
The Paradigm of Digital Quantum Computation
Introduces the paradigm of digital quantum computation, discussing quantum bits, gates, error correction, and efficiency.
The Period Finding Algorithm
Explores the Quantum Phase Estimation method for finding the period of a function using an oracle.
Quantum Circuits: Gates and Teleportation
Covers quantum circuits, gates, qubits, teleportation, and quantum communication principles.
Quantum Computing: Hardware Technologies and Applications
Explores quantum computing hardware technologies, applications, classical computing development, investments, and societal impact.
Quantum Computational Advantage: Recent Progress and Next Steps
Explores recent progress in quantum computational advantage and discusses the challenges in achieving quantum supremacy.
Quantum Information and Computation
Covers quantum information, computation, advantages, challenges, error correction, and quantum algorithms.
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.
NISQ and IBM Q
Explores NISQ devices and IBM Q, covering noisy quantum circuits, qubit technologies, and quantum algorithm development.
Quantum Natural Gradient: Optimization Methods in Quantum Computing
Explores Quantum Natural Gradient optimization in quantum computing and the importance of choosing the right ansatz.
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