SUMMARY.md

Table of contents

• Welcome to Quantum-Computing
  • Start with Pennylane
• The Project
  • Team
  • Discord
  • actual tasks
  • Termine
  • Trello-Planung
• FAQ
• Which tools do you use ?
  • Jupyter
  • Ubuntu
  • Visual Studio Code
  • Python virtual Env & Jupyter
    • Update Python Version
    • How to install virtuel Env on Ubuntu
      • Python with PipENV
      • Python with Venv
      • Uninstall Python Version
      • Using Jupyter with virtual Env
  • GitKraken
  • @Python
    • pyGIMLi
    • Qutip
    • scikit-learn
    • seaborn
  • Practical Tool - Circuit Builder
• Self-study-Guide
  • Pennylane.ai
    • Tutorials
      • Getting Started
        • Basic tutorial: qubit rotation
  • Clean Code
  • Statistik
  • Komplexitätstheorie
    • Quantum Complexity
  • Logik
  • Physik
    • Visuelle Physik
    • Einstieg Quanten-Mechanik
    • Math behind
  • Stochastic & statistic
    • PCA
  • Mathe
    • Geometry
      • Page 1
      • Lie groups & continuous symmetries
      • Euclidean and non-Euclidean geometry
    • numeric linear algebra for Coders
    • Graphen-Theorie
    • Einsteins Summenkonventiom
    • EigenValues
    • Hilbert-Raum
      • Operatoren im Hilbertraum
    • Vector Calculus
    • Basics:
      • Calculus
        • Matrix Calculus
        • Derivative
        • Integral
      • Algebra ( precalculus )
    • Einfach:
      • Vektoren
    • Mittel:
    • Schwer:
    • Symbolbeschreibung
    • Tensor Produkt
    • Inners Produkt vs Kreuzprodukt
    • Vektorprodukt bzw. Kreuzprodukt
    • "inner product" - Skalarprodukt
    • Lineare Algebra
    • Notationen
    • Hilbert-Raum
    • Komplexe Zahlen
    • Die Matrix
    • Tensoren
    • Funktionen n-Ordnung
    • Integralrechnung
    • Rechnen im Kreis
    • Differentia(operator
  • DataScience
    • Practical Deep Learning for Coders
    • Computational Linear Algebra for Coders
    • Maschinen-Theorie
    • Algorithmen & Datenstrukturen
    • ClassicalMachineLearning
      • Supervised Learning
        • Regression
        • Lineare Modelle
        • Lineare und Quadratische Discriminanten Analyse
        • Support Vector Machines
        • Stochastik Gradient Descent
        • Nearest Nighbors
        • DecissionTrees
          • RegressionTree
          • Classification Tree
      • Unsupervised Learning
        • Gaussian Mixture Models
        • Neural Network Models ( unsupervised )
        • Clustering
    • Python
    • Minimal-Cost
    • Tree-Algorithms
    • Complexity
    • Multi-Out Problems
    • Classification
    • Regression
  • offtopic
    • Neuronale Netze
    • LibreOffice Math
      • Symbole
  • Griechisch für Anfänger
• Course
  • Quantum Capstone
  • Lecture
    • Kapitel 2
    • Kapitel 3
    • Kapitel 4
      • Rechnen mit Zuständen
        • Hilbert-Raum
        • selbstadjunktierter Operator mit Spur N
        • unitärer Operator
    • Kapitel 5
    • DSE meets Quantum
    • Kapitel 1 - Welcome and cold start
  • Coding-Part
    • Kapitel 1
      • Installation der Arbeitsumgebung
        • Install Anaconda
        • Spyder Installation und Start
        • Umgang mit Conda im Terminal
      • Clean Template
    • Kapitel 2
      • First steps /w Python
      • Hello Qiskit
      • Hello Pennylane
    • Kapitel 3
    • Quantum-Gates
    • First own steps
    • Kapitel 6 - Quantum-Code
    • Kapitel 7
    • Kapitel 8
    • Kapitel 9
    • Kapitel 10
    • Special:
      • Saturday II
      • Saturday I
  • Axiome der Quanten-Mechanik
  • Course Kick-Off
• Literature list
  • Deep Learning
• Quantum Machine Learning
  • Quantum Projects
    • The Quantum Graph Recurrent Neural Network
    • Quantum circuit structure learning
    • Training and evaluating quantum kernels
    • Kernel-based training of quantum models with scikit-learne 2
    • Qubit_Rotation
    • Variational Quantum Linear Solver
    • Variational classifier
    • Understanding the Haar Measure
      • Unitary Designs
    • Lineare Regression @QML
    • Quantum-Simulation @Kubernetes with QuEST
    • Documentation
  • Reinforcement Learning
    • Konfidenzinterval [ ger. ]
    • Multi Arm Bandits
    • Markov Decision Processes
      • stochastic vs deterministic
      • path dependency
      • Value Function
      • markov probability
      • Bellman equation
      • Hamilton–Jacobi–Bellman (HJB) equation
  • Classification
  • Code Example:
  • Optimizer
  • Regression
• Research Papers & More
  • Variational quantum Algorithms
  • Quantum Natural Gradient Descent
  • Boolsche Logik
  • Quantum-Logik
  • Bra-Ket
  • Quantum-Mathe
  • Quanten-Mechanik
    • Entanglement
    • Mathematische Grundlagen:
    • Quanten-Theorie
    • Born'sche Wahrscheinlichkeitsinterpretation
    • Quantenmechanische Gleichungen
    • Wellen-Gleichung
    • Wellen-Funktion
    • "The fundamental idea of wave mechanics " Schrödinger
    • Spin
  • Visualisation
  • Quantum-Informatik
    • Gradient Descent
    • UCSM Unit cycle state machine
  • Quanten-Physik
  • Collection[unsorted]
  • Quantum-Hardware
    • Hardware Vergleich
    • Quantum Trapping
  • Spin 1/2 (Fermion)
  • offtopic
  • Physik
    • Ising Model
    • Feynman Lectures
  • Komplexitätstheorie
    • Graph isomorphism problem
    • Quantum Komplexität
  • Quantum-Simulation
    • Hamiltonian simulation
    • QiBo -Simulation
  • Machine Learing
  • Reading Guide:
• Coders Help
  • Pyhton
  • Anaconda
  • komplexe Zahlen
  • Numpy
  • Jupyter-Notebook
  • Logik
  • Terminal[Linux]
    • Mint
  • Collection-Folder
  • Additional TOOLs:
  • Code Book Quantum
  • Pennylane
• Documentation-Guide
  • Jupyter Notebook
  • Qiskit
  • Python
    • NetworkX
    • MatPlotLib
  • Anaconda
  • Pennylane
  • Pennylane
  • Quantum-Gates
    • Controlled Z (CZ) Gate
    • Swap Gate
    • Phase ( S,P) Gate
    • Pauli Y Gate
    • Pauli X Gate
    • Hadamard ( H ) Gate
    • Toffoli double controlled-Not CCX Gate
    • Pauli Z Gate
    • CNOT ( CX )Gate
    • density matrix
• Quantum-Hommage
  • ecosystem Quantum
  • Richard Bellman
  • Wolfgang Pauli
  • Max Planck
  • Andrew Helwer
  • William Rowan Hamilton
  • Bell's Theorie: Das Quanten-Venn-Diagramm-Paradoxon
  • Dirac–von Neumann axioms
  • Schrödingers Gleichung
  • Von Neumann
  • von Neumann Landauer Limit
  • Deutsch-Joza
    • Simon's problem
• Algorithmen
  • The Basics
  • Graph Algorithms & Data Structures
  • Greedy Algorithms & Dynamic Programming
  • Worst-Case Analysis
  • Basic-Python Algorithms
  • Unsupervised Learning
  • Supervised Learning
  • Reinforcement Learning
  • Quantum
    • Shor-Algorithm
    • Grover's algorithm
    • Deutsch-Josza
    • Shor-Algorithm for Prime Factorization
  • Classification
  • Regression
• Quantum @ LinuxFoundation
  • QIR
  • aide-qc
  • QCoDeS

Github

• Team-Members
• This GitBook

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• Quantum-Simulation
  • Quest
    • Publications
  • Cloud
    • Kubernetes
    • Kubernetes Tutorial
    • K8s & JupyterHUB
    • JupyterLAB @ JupyterHUB