qiskit.visualization.plot_state_city

qiskit.visualization.plot_state_city(state, title='', figsize=None, color=None, alpha=1, ax_real=None, ax_imag=None, *, rho=None, filename=None)

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Plot the cityscape of quantum state.

Plot two 3d bar graphs (two dimensional) of the real and imaginary part of the density matrix rho.

Deprecated since version 0.15.1

qiskit.visualization.state_visualization.plot_state_city()’s argument rho is deprecated as of qiskit-terra 0.15.1. It will be removed no earlier than 3 months after the release date. Instead, use the argument state, which behaves identically.

Parameters

state (Statevector orDensityMatrix or ndarray) – an N-qubit quantum state.
title (str) – a string that represents the plot title
figsize (tuple) – Figure size in inches.
color (list) – A list of len=2 giving colors for real and imaginary components of matrix elements.
alpha (float) – Transparency value for bars
ax_real (matplotlib.axes.Axes) – An optional Axes object to be used for the visualization output. If none is specified a new matplotlib Figure will be created and used. If this is specified without an ax_imag only the real component plot will be generated. Additionally, if specified there will be no returned Figure since it is redundant.
ax_imag (matplotlib.axes.Axes) – An optional Axes object to be used for the visualization output. If none is specified a new matplotlib Figure will be created and used. If this is specified without an ax_real only the imaginary component plot will be generated. Additionally, if specified there will be no returned Figure since it is redundant.

Returns

The matplotlib.Figure of the visualization if the ax_real and ax_imag kwargs are not set

Return type

matplotlib.figure.Figure

Raises

MissingOptionalLibraryError – Requires matplotlib.
ValueError – When ‘color’ is not a list of len=2.
VisualizationError – if input is not a valid N-qubit state.

Examples

# You can choose different colors for the real and imaginary parts of the density matrix.
 
from qiskit import QuantumCircuit
from qiskit.quantum_info import DensityMatrix
from qiskit.visualization import plot_state_city
 
qc = QuantumCircuit(2)
qc.h(0)
qc.cx(0, 1)
 
state = DensityMatrix(qc)
plot_state_city(state, color=['midnightblue', 'crimson'], title="New State City")

../_images/qiskit-visualization-plot_state_city-1.png

# You can make the bars more transparent to better see the ones that are behind
# if they overlap.
 
import numpy as np
from qiskit.quantum_info import Statevector
from qiskit.visualization import plot_state_city
from qiskit import QuantumCircuit
 
qc = QuantumCircuit(2)
qc.h(0)
qc.cx(0, 1)
 
 
qc = QuantumCircuit(2)
qc.h([0, 1])
qc.cz(0,1)
qc.ry(np.pi/3, 0)
qc.rx(np.pi/5, 1)
 
state = Statevector(qc)
plot_state_city(state, alpha=0.6)

../_images/qiskit-visualization-plot_state_city-2.png

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