qiskit.pulse.Acquire
class Acquire(duration, channel, mem_slot=None, reg_slot=None, kernel=None, discriminator=None, name=None)
The Acquire instruction is used to trigger the ADC associated with a particular qubit; e.g. instantiated with AcquireChannel(0), the Acquire command will trigger data collection for the channel associated with qubit 0 readout. This instruction also provides acquisition metadata:
- the number of cycles during which to acquire (in terms of dt),
- the register slot to store classified, intermediary readout results,
- the memory slot to return classified results,
- the kernel to integrate raw data for each shot, and
- the discriminator to classify kerneled IQ points.
Create a new Acquire instruction.
Parameters
- duration (
int) – Length of time to acquire data in terms of dt. - channel (
AcquireChannel) – The channel that will acquire data. - mem_slot (
Optional[MemorySlot]) – The classical memory slot in which to store the classified readout result. - reg_slot (
Optional[RegisterSlot]) – The fast-access register slot in which to store the classified readout result for fast feedback. - kernel (
Optional[Kernel]) – AKernelfor integrating raw data. - discriminator (
Optional[Discriminator]) – ADiscriminatorfor discriminating kerneled IQ data into 0/1 results. - name (
Optional[str]) – Name of the instruction for display purposes.
Raises
PulseError – If channels are supplied, and the number of register and/or memory slots does not equal the number of channels.
__init__
__init__(duration, channel, mem_slot=None, reg_slot=None, kernel=None, discriminator=None, name=None)
Create a new Acquire instruction.
Parameters
- duration (
int) – Length of time to acquire data in terms of dt. - channel (
AcquireChannel) – The channel that will acquire data. - mem_slot (
Optional[MemorySlot]) – The classical memory slot in which to store the classified readout result. - reg_slot (
Optional[RegisterSlot]) – The fast-access register slot in which to store the classified readout result for fast feedback. - kernel (
Optional[Kernel]) – AKernelfor integrating raw data. - discriminator (
Optional[Discriminator]) – ADiscriminatorfor discriminating kerneled IQ data into 0/1 results. - name (
Optional[str]) – Name of the instruction for display purposes.
Raises
PulseError – If channels are supplied, and the number of register and/or memory slots does not equal the number of channels.
Methods
__init__(duration, channel[, mem_slot, …]) | Create a new Acquire instruction. |
append(schedule[, name]) | Return a new Schedule with schedule inserted at the maximum time over all channels shared between self and schedule. |
assign_parameters(value_dict) | Modify and return self with parameters assigned according to the input. |
ch_duration(*channels) | Return duration of the supplied channels in this Instruction. |
ch_start_time(*channels) | Return minimum start time for supplied channels. |
ch_stop_time(*channels) | Return maximum start time for supplied channels. |
draw([dt, style, filename, interp_method, …]) | Plot the instruction. |
flatten() | Return itself as already single instruction. |
insert(start_time, schedule[, name]) | Return a new Schedule with schedule inserted within self at start_time. |
shift(time[, name]) | Return a new schedule shifted forward by time. |
Attributes
acquire | Acquire channel to acquire data. |
acquires | Acquire channels to be acquired on. |
channel | Return the Channel that this instruction is scheduled on. |
channels | Returns channels that this schedule uses. |
command | The associated command. |
discriminator | Return discrimination settings. |
duration | Duration of this instruction. |
id | Unique identifier for this instruction. |
instructions | Iterable for getting instructions from Schedule tree. |
kernel | Return kernel settings. |
mem_slot | The classical memory slot which will store the classified readout result. |
mem_slots | MemorySlots. |
name | Name of this instruction. |
operands | Return instruction operands. |
reg_slot | The fast-access register slot which will store the classified readout result for fast-feedback computation. |
reg_slots | RegisterSlots. |
start_time | Relative begin time of this instruction. |
stop_time | Relative end time of this instruction. |
timeslots | Occupied time slots by this instruction. |
acquire
Acquire channel to acquire data. The AcquireChannel index maps trivially to qubit index.
Return type
acquires
append
append(schedule, name=None)
Return a new Schedule with schedule inserted at the maximum time over all channels shared between self and schedule.
Parameters
- schedule (
ScheduleComponent) – schedule to be appended - name (
Optional[str]) – Name of the new schedule. Defaults to name of self
Return type
Schedule
assign_parameters
assign_parameters(value_dict)
Modify and return self with parameters assigned according to the input.
Parameters
value_dict (Dict[ParameterExpression, Union[ParameterExpression, float, int]]) – A mapping from Parameters to either numeric values or another Parameter expression.
Return type
Instruction
Returns
Self with updated parameters.
ch_duration
ch_duration(*channels)
Return duration of the supplied channels in this Instruction.
Parameters
*channels – Supplied channels
Return type
int
ch_start_time
ch_start_time(*channels)
Return minimum start time for supplied channels.
Parameters
*channels – Supplied channels
Return type
int
ch_stop_time
ch_stop_time(*channels)
Return maximum start time for supplied channels.
Parameters
*channels – Supplied channels
Return type
int
channel
channels
command
The associated command. Commands are deprecated, so this method will be deprecated shortly.
Returns
The deprecated command if available.
Return type
discriminator
Return discrimination settings.
Return type
Discriminator
draw
draw(dt=1, style=None, filename=None, interp_method=None, scale=1, plot_all=False, plot_range=None, interactive=False, table=True, label=False, framechange=True, channels=None)
Plot the instruction.
Parameters
- dt (
float) – Time interval of samples - style (Optional[SchedStyle]) – A style sheet to configure plot appearance
- filename (
Optional[str]) – Name required to save pulse image - interp_method (
Optional[Callable]) – A function for interpolation - scale (
float) – Relative visual scaling of waveform amplitudes - plot_all (
bool) – Plot empty channels - plot_range (
Optional[Tuple[float]]) – A tuple of time range to plot - interactive (
bool) – When set true show the circuit in a new window (this depends on the matplotlib backend being used supporting this) - table (
bool) – Draw event table for supported instructions - label (
bool) – Label individual instructions - framechange (
bool) – Add framechange indicators - channels (
Optional[List[Channel]]) – A list of channel names to plot
Returns
A matplotlib figure object of the pulse schedule
Return type
matplotlib.figure
duration
Duration of this instruction.
Return type
int
flatten
flatten()
Return itself as already single instruction.
Return type
Instruction
id
Unique identifier for this instruction.
Return type
int
insert
insert(start_time, schedule, name=None)
Return a new Schedule with schedule inserted within self at start_time.
Parameters
- start_time (
int) – Time to insert the schedule schedule - schedule (
ScheduleComponent) – Schedule to insert - name (
Optional[str]) – Name of the new schedule. Defaults to name of self
Return type
Schedule
instructions
Iterable for getting instructions from Schedule tree.
Return type
Tuple[Tuple[int, Instruction]]
kernel
Return kernel settings.
Return type
Kernel
mem_slot
mem_slots
name
Name of this instruction.
Return type
str
operands
Return instruction operands.
Return type
Tuple
reg_slot
The fast-access register slot which will store the classified readout result for fast-feedback computation.
Return type
reg_slots
shift
shift(time, name=None)
Return a new schedule shifted forward by time.
Parameters
- time (
int) – Time to shift by - name (
Optional[str]) – Name of the new schedule. Defaults to name of self
Return type
Schedule
start_time
Relative begin time of this instruction.
Return type
int
stop_time
Relative end time of this instruction.
Return type
int