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BaseGateFitter

class BaseGateFitter(description, backend_result, xdata, qubits, fit_fun, fit_p0, fit_bounds, circuit_names, series=None, expected_state='0')

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Bases: qiskit.ignis.characterization.fitters.BaseFitter

Base class for fitters of gate errors

See BaseFitter __init__

Methods

add_data

BaseGateFitter.add_data(results, recalc=True, refit=True)

Add new execution results to previous execution results

Parameters

  • results (Union[Result, List[Result]]) – new execution results
  • recalc (bool) – whether tp recalculate the data
  • refit (bool) – whether to refit the data

fit_data

BaseGateFitter.fit_data(qid=- 1, p0=None, bounds=None, series=None)

Fit the curve.

Compute self._params and self._params_err

Parameters

  • qid (int) – qubit for fitting. If -1 fit for all the qubits
  • p0 (Optional[List[float]]) – initial guess, equivalent to p0 in scipy.optimize
  • bounds (Optional[Tuple[List[float], List[float]]]) – bounds, equivalent to bounds in scipy.optimize
  • series (Optional[str]) – series to fit (if None fit all)

plot

BaseGateFitter.plot(qind, series='0', ax=None, show_plot=True)

Plot err data.

Parameters

  • qind (int) – qubit index to plot
  • series (str) – the series to plot
  • ax (Axes) – plot axes
  • show_plot (bool) – call plt.show()

Returns

The axes object

Return type

Axes

Raises

ImportError – if matplotlib is not installed

Attributes

backend_result

Return the execution results

Return type

Union[Result, List[Result]]

description

Return the fitter’s purpose, e.g. ‘T1’

Return type

str

fit_fun

Return the function used in the fit, e.g. BaseFitter._exp_fit_fun

Return type

Callable

measured_qubits

Return the indices of the qubits to be characterized

Return type

List[int]

params

Return the fit function parameters that were calculated by curve_fit

Return type

List[float]

params_err

Return the error of the fit function parameters

Return type

List[float]

series

Return the list of series for the data

Return type

Optional[List[str]]

xdata

Return the data points on the x-axis, the independenet parameter which is fit against

Return type

Union[List[float], array]

ydata

Return the data points on the y-axis

The data points are returning in the form of a list of dictionaries:

  • ydata[i][‘mean’] is a list, where item

    no. j is the probability of success of qubit i for a circuit that lasts xdata[j].

  • ydata[i][‘std’] is a list, where ydata[‘std’][j] is the

    standard deviation of the success of qubit i.

Return type

List[Dict]

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