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Related lectures (32)
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Quantum Circuits: Classic Circuits
Explores classic circuits in quantum computing, including Boolean functions and reversible gates.
Quantum Delegation Protocols
Covers classical single qubit Hamiltonian verification and quantum delegation protocols.
Quantum Circuits: Models and Approximations
Explores quantum circuit modeling, approximations, unitary matrices, and measurement operations.
Quantum Circuits: Model and Computation
Covers quantum circuits, computation model, unitary inclusion, simulation, precision, qubits, and global aspects.
Correctness and Soundness of the Qubit Test
Explores the correctness and soundness of the Qubit Test, emphasizing probabilistic algorithms, trapdoors, and function inversion.
Simon Problem: Quantum Algorithm and Hilbert Space
Covers Simon's quantum algorithm, unitary operations, and the Simon problem.
Shor Algorithm: Quantum Circuit Analysis
Explores the Shor algorithm's quantum circuit analysis and the Quantum Fourier Transform application.
Quantum circuit model of computation
Explores the quantum circuit model of computation, focusing on unitary gates and multi-controlled gates.
Quantum Search: Grover Algorithm
Explores the Grover algorithm, a quantum search algorithm with quadratic speedup, covering quantum circuits, final states, and geometric interpretations.
Computation with Tensor Networks
Explores computation with tensor networks, covering joint probability distributions, statistical mechanics, and quantum computation applications.
Quantum Computation Delegation
Explores fully classical qubits, blind quantum computing, and verifiability in quantum delegation protocols.
Quantum Computation: Mechanisms and Advantages of Restricted Models
Covers the mechanisms behind quantum computation and explores the advantages of restricted computational models.
The Paradigm of Digital Quantum Computation
Discusses digital quantum computation, focusing on gate implementation and circuit construction.
Quantum circuit model of computation
Covers the Cincent Model of Deutsch for Quantum Computation, focusing on input representation, Hilbert space, and unitary evolution.
Shor's Algorithm: Quantum Circuit & Period Finding
Covers Shor's algorithm for period finding in quantum computing, explaining the quantum circuit and algorithm used.
Computational Quantum Physics
Introduces quantum computing basics, covering qubits, gates, circuits, and simulations.
Quantum Information: Basics and Applications
Covers quantum information basics, Toffoli gates, quantum parallelism, and Grover's algorithm for database search.
Quantum Correction Codes 3
Explores quantum correction codes, emphasizing error detection, correction, and quantum circuit applications.
Quantum Gates: C-NOT and Toffoli
Covers the principles behind quantum gates, focusing on the C-NOT and Toffoli gates.
Linear Algebra in Dirac Notation
Covers linear algebra in Dirac notation, focusing on vector spaces and quantum bits.
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