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Introduction to quantum computing

  • The basics of Quantum Computing
  • What is a qubit?
  • Superposition and entanglement
  • What is a quantum algorithm?
  • Hello quantum world
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Quick guide

  • Introduction quick guide
  • Working with the editor
  • Executing your algorithm
  • Displaying and downloading your results
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  • Qubit register
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Advanced user guide

  • Introduction advanced guide
  • Software Development Kit
  • Low-level API
  • cQASM: A Quantum Programming Language
  • cQASM: Qubit gate operations
  • cQASM: Single Gate Multiple-Qubits
  • cQASM: Qubit initialization and measurement
  • cQASM: Display commands
  • LibKet
  • Code example: SAT

Code examples

  • Code example: Deutsch-Jozsa algorithm
  • Code example: Quantum full adder
  • Code example: Grover's algorithm
  • Code example: Repetition code
  • Code example: Quantum classification
  • Code example: SAT

Hardware backend topics

  • Hardware backends
  • Spin-2: Operational specifics
  • Starmon-5: Operational specifics

Emulator backend topics

  • Emulator backends
  • cQASM: Binary controlled gates
  • cQASM: Display commands
  • cQASM: Error models
  • Optimization of simulations
  • Resetting qubits

cQASM instructions

  • Qubits
  • Prep_z
  • Prep_y
  • Prep_x
  • Pauli-X gate
  • Pauli-Y gate
  • Pauli-Z gate
  • Hadamard gate
  • Identity gate
  • Rx Gate
  • Ry Gate
  • Rz Gate
  • 90-degree rotations
  • S Gate
  • S dagger Gate
  • T Gate
  • T dagger Gate
  • CNOT Gate
  • CZ Gate
  • Swap Gate
  • CR gate
  • CRk gate
  • Toffoli Gate
  • Measure_z
  • Measure_y
  • Measure_x
  • Measure_all
  • Display
  • Display_binary
  • Binary controlled gates
  • Not

Display_binary

The display_binary instruction writes the current state of the measurement register or part of the measurement register to the simulator output file.

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