Page Index - RPIQuantumComputing/QuantumCircuits GitHub Wiki
103 page(s) in this GitHub Wiki:
- Home
- An Introduction to Quantum: Classical Computing
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- An Introduction to Quantum: Part 2
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- BB84 Protocol
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- Complex Numbers
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- Continuous Variables generalization of Discrete Variables
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- Diagonalization of a Matrix
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- Dirac Notation (Bra‐Ket Notation)
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- Eigenvalues and Eigenvectors
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- Error Correction
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- Fast Fourier Transform (FFT)
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- Grover's Algorithm
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- How to Approach Quantum Learning
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- How to find out what state the qubit was in
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- How to perform Physical Simulation
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- Inner products
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- Interference: Where the magic happens!
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- Introduction to Computational complexity theory
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- Introduction to Linear Algebra
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- Introduction to Matrix Algebra
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- Lie groups and Lie Algebras
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- Linear Transformation
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- Matrices
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- Matrix Multiplication
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- Monte Carlo optimization
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- Multi Qubit Circuits
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- New Designer GUI Outline
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- penny lane hamiltonian attempt
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- Quantum Algorithms for Testing Hamiltonian Symmetry
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- Quantum Approximate Optimization Algorithm
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- Quantum Boltzmann Machines QBM
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- Quantum Computational Simulation of Closed Timelike Curves
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- Quantum Generative Adversarial Networks QGAN
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- Quantum Hamiltonian Descent
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- Quantum Imaginary Time Evolution
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- Quantum K‐Means algorithm
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- Quantum Neural Networks QNN
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- Quantum Phase Estimation
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- Quantum Principal Component Analysis QPCA
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- Quantum Properties
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- Quantum Reinforcement Learning QRL
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- Quantum Support Vector Machines QSVM
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- Representing Qubits
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- Shor's Algorithm
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- Studying Quantum Information‐ Multiple Systems
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- The Impacts of Quantum Computing in Society
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- Variational Quantum Eigensolver (VQE)
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- Vector Spaces
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- Vectors
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- What is a qubit?
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- What is entangelement?
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- What Makes Quantum Properties Possible
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