Wolfram Language Paclet Repository
Community-contributed installable additions to the Wolfram Language
Getting Started
Getting Started
How to install and load the paclet
Install the paclet and load it:
In[1]:=
PacletInstall["Wolfram/QuantumFramework"]Needs["Wolfram`QuantumFramework`"]
Out[1]=
PacletObject
 | |
|
Check whether definitions are now available:
In[2]:=
Names["Quantum*"]
Out[2]=
{QuantumBasis,QuantumChannel,QuantumCircuitOperator,QuantumDiagramProcess,QuantumDistance,QuantumEntangledQ,QuantumEntanglementMonotone,QuantumLabelName,QuantumMeasurement,QuantumMeasurementOperator,QuantumOperator,QuantumPartialTrace,QuantumPartialTranspose,QuantumState,QuantumStateEstimate,QuantumStateEstimation,QuantumStateSampler,QuantumTensorProduct,QuantumWignerTransform}
A quantum gate for the magic basis transformation (transforming 2 qubit computational basis to the Bell basis):
In[3]:=
qc=
["Magic"];qc["Diagram"]
| QuantumCircuitOperator |
Out[3]=
Contents cannot be rendered at this time; please try again later
Test how above circuit transforms computational basis of 2-qubit into Bell states:
In[24]:=
qc
["00"]
["PhiPlus"]
| QuantumState |
| QuantumState |
Out[24]=
True
In[25]:=
qc
["10"]
["PsiPlus"]
| QuantumState |
| QuantumState |
Out[25]=
True
In[26]:=
qc
["01"]
["PhiMinus"]
| QuantumState |
| QuantumState |
Out[26]=
True
In[27]:=
qc
["11"]
["PsiMinus"]
| QuantumState |
| QuantumState |
Out[27]=
True
Add measurements into above circuit
In[37]:=
qc2=
[{1,2}]@*qc;qc2["Diagram"]
| QuantumMeasurementOperator |
Out[38]=
Contents cannot be rendered at this time; please try again later
Calculate the result of circuit on registered state:
In[19]:=
mea=qc2[]
Out[19]=
QuantumMeasurement
| |
|
Represents the corresponding probabilities:
In[39]:=
mea["ProbabilityPlot"]
Out[39]=
""