- 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.
ParameterExpression]) – Length of time to acquire data in terms of dt.
AcquireChannel) – The channel that will acquire data.
MemorySlot]) – The classical memory slot in which to store the classified readout result.
RegisterSlot]) – The fast-access register slot in which to store the classified readout result for fast feedback.
Kernel]) – A
Kernelfor integrating raw data.
Discriminator]) – A
Discriminatorfor discriminating kerneled IQ data into 0/1 results.
str]) – Name of the instruction for display purposes.
PulseError – If channels are supplied, and the number of register and/or memory slots does not equal the number of channels.
Return a new
scheduleinserted at the maximum time over all channels shared between
Return duration of the supplied channels in this Instruction.
Return minimum start time for supplied channels.
Return maximum start time for supplied channels.
Plot the instruction.
Return a new
Return True iff the instruction is parameterized.
Return a new schedule shifted forward by time.
Acquire channel to acquire data. The
AcquireChannelindex maps trivially to qubit index.
Returns the channels that this schedule uses.
Return discrimination settings.
Unique identifier for this instruction.
Iterable for getting instructions from Schedule tree.
Return kernel settings.
The classical memory slot which will store the classified readout result.
Name of this instruction.
Return instruction operands.
Parameters which determine the instruction behavior.
The fast-access register slot which will store the classified readout result for fast-feedback computation.
Relative begin time of this instruction.
Relative end time of this instruction.