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QuantumFramework

Tutorials

  • Getting Started

Guides

  • Wolfram Quantum Computation Framework

Tech Notes

  • Bell's Theorem
  • Circuit Diagram
  • Exploring Fundamentals of Quantum Theory
  • Quantum object abstraction
  • Tensor Network

Symbols

  • QuantumBasis
  • QuantumChannel
  • QuantumCircuitMultiwayGraph [EXPERIMENTAL]
  • QuantumCircuitOperator
  • QuantumDistance
  • QuantumEntangledQ
  • QuantumEntanglementMonotone
  • QuantumEvolve
  • QuantumMeasurement
  • QuantumMeasurementOperator
  • QuantumMeasurementSimulation
  • QuantumMPS [EXPERIMENTAL]
  • QuantumOperator
  • QuantumPartialTrace
  • QuantumShortcut [EXPERIMENTAL]
  • QuantumStateEstimate [EXPERIMENTAL]
  • QuantumState
  • QuantumTensorProduct
  • QuantumWignerMICTransform [EXPERIMENTAL]
  • QuantumWignerTransform [EXPERIMENTAL]
  • QuditBasis
  • QuditName
Wolfram`QuantumFrameworkLoader`
QuantumMPS [EXPERIMENTAL]
​
QuantumMPS[QuantumState[...]]
returns the corresponding Matrix-Product-State, as a QuantumCircuitOperator object
​
​
QuantumMPS[QuantumOperator[...]]
returns the corresponding Matrix-Product-Operator, as a QuantumCircuitOperator object
​
Details and Options

Examples  
(2)
Basic Examples  
(2)
Generate MPS of a quantum state
In[1]:=
qc=QuantumMPS
QuantumState
["GHZ"];​​qc["Diagram","ShowGateLabels"False,"ShowConnectors"True]
Out[1]=
Contents cannot be rendered at this time; please try again later or download this notebook for full functionality »
In[2]:=
qc[]
QuantumState
["GHZ"]
Out[2]=
True
​
Generate MPO of a quantum operator
In[1]:=
qc=QuantumMPS
QuantumOperator
["Toffoli"];​​qc["Diagram","ShowGateLabels"False,"ShowConnectors"True]
Out[1]=
Contents cannot be rendered at this time; please try again later or download this notebook for full functionality »
SeeAlso
QuantumState
▪
QuantumOperator
▪
QuantumCircuitOperator
RelatedGuides
▪
Wolfram Quantum Computation Framework
""

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