SymbolicPulse
class qiskit.pulse.library.SymbolicPulse(pulse_type, duration, parameters=None, name=None, limit_amplitude=None, envelope=None, constraints=None, valid_amp_conditions=None)
Bases: Pulse
The pulse representation model with parameters and symbolic expressions.
A symbolic pulse instance can be defined with an envelope and parameter constraints. Envelope and parameter constraints should be provided as symbolic expressions. Rather than creating a subclass, different pulse shapes can be distinguished by the instance attributes SymbolicPulse.envelope
and SymbolicPulse.pulse_type
.
The symbolic expressions must be defined either with SymPy or Symengine. Usually Symengine-based expression is much more performant for instantiation of the SymbolicPulse
, however, it doesn’t support every functions available in SymPy. You may need to choose proper library depending on how you define your pulses. Symengine works in the most envelopes and constraints, and thus it is recommended to use this library especially when your program contains a lot of pulses. Also note that Symengine has the limited platform support and may not be available for your local system. Symengine is a required dependency for Qiskit on platforms that support it will always be installed along with Qiskit on macOS x86_64
and arm64
, and Linux x86_64
, aarch64
, and ppc64le
. For 64-bit Windows users they will need to manual install it. For 32-bit platforms such as i686
and armv7
Linux, and on Linux s390x
there are no pre-compiled packages available and to use symengine you’ll need to compile it from source. If Symengine is not available in your environment SymPy will be used.
Envelope function
The waveform at time is generated by the get_waveform()
according to
where is the set of full pulse parameters in the SymbolicPulse.parameters
dictionary which must include the . Note that the is an envelope of the waveform, and a programmer must provide this as a symbolic expression. can be arbitrary complex values as long as they pass validate_parameters()
and your quantum backend can accept. The time and are in units of dt, i.e. sample time resolution, and this function is sampled with a discrete time vector in sampling the pulse envelope at every 0.5 dt (middle sampling strategy) when the SymbolicPulse.get_waveform()
method is called. The sample data is not generated until this method is called thus a symbolic pulse instance only stores parameter values and waveform shape, which greatly reduces memory footprint during the program generation.
Pulse validation
When a symbolic pulse is instantiated, the method validate_parameters()
is called, and performs validation of the pulse. The validation process involves testing the constraint functions and the maximal amplitude of the pulse (see below). While the validation process will improve code stability, it will reduce performance and might create compatibility issues (particularly with JAX). Therefore, it is possible to disable the validation by setting the class attribute disable_validation
to True
.
Constraint functions
Constraints on the parameters are defined with an instance attribute SymbolicPulse.constraints
which can be provided through the constructor. The constraints value must be a symbolic expression, which is a function of parameters to be validated and must return a boolean value being True
when parameters are valid. If there are multiple conditions to be evaluated, these conditions can be concatenated with logical expressions such as And
and Or
in SymPy or Symengine. The symbolic pulse instance can be played only when the constraint function returns True
. The constraint is evaluated when validate_parameters()
is called.
Maximum amplitude validation
When you play a pulse in a quantum backend, you might face the restriction on the power that your waveform generator can handle. Usually, the pulse amplitude is normalized by this maximum power, namely . This condition is evaluated along with above constraints when you set limit_amplitude = True
in the constructor. To evaluate maximum amplitude of the waveform, we need to call get_waveform()
. However, this introduces a significant overhead in the validation, and this cannot be ignored when you repeatedly instantiate symbolic pulse instances. SymbolicPulse.valid_amp_conditions
provides a condition to skip this waveform validation, and the waveform is not generated as long as this condition returns True
, so that healthy symbolic pulses are created very quick. For example, for a simple pulse shape like amp * cos(f * t)
, we know that pulse amplitude is valid as long as amp
remains less than magnitude 1.0. So abs(amp) <= 1
could be passed as SymbolicPulse.valid_amp_conditions
to skip doing a full waveform evaluation for amplitude validation. This expression is provided through the constructor. If this is not provided, the waveform is generated everytime when validate_parameters()
is called.
Examples
This is how a user can instantiate a symbolic pulse instance. In this example, we instantiate a custom Sawtooth envelope.
from qiskit.pulse.library import SymbolicPulse
my_pulse = SymbolicPulse(
pulse_type="Sawtooth",
duration=100,
parameters={"amp": 0.1, "freq": 0.05},
name="pulse1",
)
Note that SymbolicPulse
can be instantiated without providing the envelope and constraints. However, this instance cannot generate waveforms without knowing the envelope definition. Now you need to provide the envelope.
import sympy
from qiskit.pulse.library import SymbolicPulse
t, amp, freq = sympy.symbols("t, amp, freq")
envelope = 2 * amp * (freq * t - sympy.floor(1 / 2 + freq * t))
my_pulse = SymbolicPulse(
pulse_type="Sawtooth",
duration=100,
parameters={"amp": 0.1, "freq": 0.05},
envelope=envelope,
name="pulse1",
)
my_pulse.draw()
Likewise, you can define SymbolicPulse.constraints
for my_pulse
. After providing the envelope definition, you can generate the waveform data. Note that it would be convenient to define a factory function that automatically accomplishes this procedure.
def Sawtooth(duration, amp, freq, name):
t, amp, freq = sympy.symbols("t, amp, freq")
instance = SymbolicPulse(
pulse_type="Sawtooth",
duration=duration,
parameters={"amp": amp, "freq": freq},
envelope=2 * amp * (freq * t - sympy.floor(1 / 2 + freq * t)),
name=name,
)
return instance
You can also provide a Parameter
object in the parameters
dictionary, or define duration
with a Parameter
object when you instantiate the symbolic pulse instance. A waveform cannot be generated until you assign all unbounded parameters. Note that parameters will be assigned through the schedule playing the pulse.
Serialization
The SymbolicPulse
subclass can be serialized along with the symbolic expressions through qiskit.qpy
. A user can therefore create a custom pulse subclass with a novel envelope and constraints, and then one can instantiate the class with certain parameters to run on a backend. This pulse instance can be saved in the QPY binary, which can be loaded afterwards even within the environment not having original class definition loaded. This mechanism also allows us to easily share a pulse program including custom pulse instructions with collaborators.
Create a parametric pulse.
The class qiskit.pulse.library.symbolic_pulses.SymbolicPulse
is deprecated as of Qiskit 1.3. It will be removed in Qiskit 2.0. The entire Qiskit Pulse package is being deprecated and will be moved to the Qiskit Dynamics repository: https://github.com/qiskit-community/qiskit-dynamics
Parameters
- pulse_type (str) – Display name of this pulse shape.
- duration (ParameterExpression |int) – Duration of pulse.
- parameters (Mapping[str, ParameterExpression |complex] | None) – Dictionary of pulse parameters that defines the pulse envelope.
- name (str | None) – Display name for this particular pulse envelope.
- limit_amplitude (bool | None) – If
True
, then limit the absolute value of the amplitude of the waveform to 1. The default isTrue
and the amplitude is constrained to 1. - envelope (sym.Expr | None) – Pulse envelope expression.
- constraints (sym.Expr | None) – Pulse parameter constraint expression.
- valid_amp_conditions (sym.Expr | None) – Extra conditions to skip a full-waveform check for the amplitude limit. If this condition is not met, then the validation routine will investigate the full-waveform and raise an error when the amplitude norm of any data point exceeds 1.0. If not provided, the validation always creates a full-waveform.
Raises
PulseError – When not all parameters are listed in the attribute PARAM_DEF
.
Attributes
constraints
Return symbolic expression for the pulse parameter constraints.
disable_validation
Default value: False
duration
envelope
Return symbolic expression for the pulse envelope.
id
Unique identifier for this pulse.
limit_amplitude
Default value: True
name
parameters
pulse_type
Return display name of the pulse shape.
valid_amp_conditions
Return symbolic expression for the pulse amplitude constraints.
Methods
draw
draw(style=None, backend=None, time_range=None, time_unit='dt', show_waveform_info=True, plotter='mpl2d', axis=None)
Plot the interpolated envelope of pulse.
Parameters
-
style (dict[str, Any] | None) – Stylesheet options. This can be dictionary or preset stylesheet classes. See
IQXStandard
,IQXSimple
, andIQXDebugging
for details of preset stylesheets. -
backend (Optional[BaseBackend]) – Backend object to play the input pulse program. If provided, the plotter may use to make the visualization hardware aware.
-
time_range (tuple[int, int] | None) – Set horizontal axis limit. Tuple
(tmin, tmax)
. -
time_unit (str) – The unit of specified time range either
dt
orns
. The unit ofns
is available only whenbackend
object is provided. -
show_waveform_info (bool) – Show waveform annotations, i.e. name, of waveforms. Set
True
to show additional information about waveforms. -
plotter (str) –
Name of plotter API to generate an output image. One of following APIs should be specified:
mpl2d: Matplotlib API for 2D image generation. Matplotlib API to generate 2D image. Charts are placed along y axis with vertical offset. This API takes matplotlib.axes.Axes as `axis` input.
axis and style kwargs may depend on the plotter.
-
axis (Any | None) – Arbitrary object passed to the plotter. If this object is provided, the plotters use a given
axis
instead of internally initializing a figure object. This object format depends on the plotter. See plotter argument for details.
Returns
Visualization output data. The returned data type depends on the plotter
. If matplotlib family is specified, this will be a matplotlib.pyplot.Figure
data.
get_waveform
get_waveform()
Return a Waveform with samples filled according to the formula that the pulse represents and the parameter values it contains.
Since the returned array is a discretized time series of the continuous function, this method uses a midpoint sampler. For duration
, return:
Returns
A waveform representation of this pulse.
Raises
- PulseError – When parameters are not assigned.
- PulseError – When expression for pulse envelope is not assigned.
Return type
is_parameterized
validate_parameters
validate_parameters()
Validate parameters.
Raises
PulseError – If the parameters passed are not valid.
Return type
None