Executing Experiments
qiskit.execute_function
execute
qiskit.execute_function.execute(experiments, backend, basis_gates=None, coupling_map=None, backend_properties=None, initial_layout=None, seed_transpiler=None, optimization_level=None, pass_manager=None, shots=None, memory=None, seed_simulator=None, default_qubit_los=None, default_meas_los=None, qubit_lo_range=None, meas_lo_range=None, schedule_los=None, meas_level=None, meas_return=None, memory_slots=None, memory_slot_size=None, rep_time=None, rep_delay=None, parameter_binds=None, schedule_circuit=False, inst_map=None, meas_map=None, scheduling_method=None, init_qubits=None, **run_config)
Execute a list of qiskit.circuit.QuantumCircuit
or qiskit.pulse.Schedule
on a backend.
The execution is asynchronous, and a handle to a job instance is returned.
The function qiskit.execute_function.execute()
is deprecated as of qiskit 0.46.0. It will be removed in the Qiskit 1.0 release. This function combines transpile
and backend.run
, which is covered by Sampler
primitives
. Alternatively, you can also run transpile()
followed by backend.run()
.
Parameters
-
experiments (QuantumCircuit orlist[QuantumCircuit] or Schedule orlist[Schedule]) – Circuit(s) or pulse schedule(s) to execute
-
backend (Backend) – Backend to execute circuits on. Transpiler options are automatically grabbed from backend.configuration() and backend.properties(). If any other option is explicitly set (e.g. coupling_map), it will override the backend’s.
-
basis_gates (list[str]) – List of basis gate names to unroll to. e.g:
['u1', 'u2', 'u3', 'cx']
. IfNone
, do not unroll. -
coupling_map (CouplingMap orlist) –
Coupling map (perhaps custom) to target in mapping. Multiple formats are supported:
CouplingMap
instancelist
: must be given as an adjacency matrix, where each entry specifies all two-qubit interactions supported by backend e.g:[[0, 1], [0, 3], [1, 2], [1, 5], [2, 5], [4, 1], [5, 3]]
-
backend_properties (BackendProperties) – Properties returned by a backend, including information on gate errors, readout errors, qubit coherence times, etc. Find a backend that provides this information with:
backend.properties()
-
initial_layout (Layout ordict orlist) –
Initial position of virtual qubits on physical qubits. If this layout makes the circuit compatible with the coupling_map constraints, it will be used. The final layout is not guaranteed to be the same, as the transpiler may permute qubits through swaps or other means.
Multiple formats are supported:
-
qiskit.transpiler.Layout
instance -
dict
:-
virtual to physical:
{qr[0]: 0, qr[1]: 3, qr[2]: 5}
-
physical to virtual:
{0: qr[0], 3: qr[1], 5: qr[2]}
-
-
list
:-
virtual to physical:
[0, 3, 5] # virtual qubits are ordered (in addition to named)
-
physical to virtual:
[qr[0], None, None, qr[1], None, qr[2]]
-
-
-
seed_transpiler (int) – Sets random seed for the stochastic parts of the transpiler
-
optimization_level (int) –
How much optimization to perform on the circuits. Higher levels generate more optimized circuits, at the expense of longer transpilation time.
- 0: no optimization
- 1: light optimization
- 2: heavy optimization
- 3: even heavier optimization
If None, level 1 will be chosen as default.
-
pass_manager (PassManager) – The pass manager to use during transpilation. If this arg is present, auto-selection of pass manager based on the transpile options will be turned off and this pass manager will be used directly.
-
shots (int) – Number of repetitions of each circuit, for sampling. Default: 1024
-
memory (bool) – If True, per-shot measurement bitstrings are returned as well (provided the backend supports it). For OpenPulse jobs, only measurement level 2 supports this option. Default: False
-
seed_simulator (int) – Random seed to control sampling, for when backend is a simulator
-
default_qubit_los (Optional[List[float]]) – List of job level qubit drive LO frequencies in Hz. Overridden by
schedule_los
if specified. Must have lengthn_qubits
. -
default_meas_los (Optional[List[float]]) – List of job level measurement LO frequencies in Hz. Overridden by
schedule_los
if specified. Must have lengthn_qubits
. -
qubit_lo_range (Optional[List[List[float]]]) – List of job level drive LO ranges each of form
[range_min, range_max]
in Hz. Used to validatequbit_lo_freq
. Must have lengthn_qubits
. -
meas_lo_range (Optional[List[List[float]]]) – List of job level measurement LO ranges each of form
[range_min, range_max]
in Hz. Used to validatemeas_lo_freq
. Must have lengthn_qubits
. -
schedule_los (list) –
Experiment level (ie circuit or schedule) LO frequency configurations for qubit drive and measurement channels. These values override the job level values from
default_qubit_los
anddefault_meas_los
. Frequencies are in Hz. Settable for qasm and pulse jobs.If a single LO config or dict is used, the values are set at job level. If a list is used, the list must be the size of the number of experiments in the job, except in the case of a single experiment. In this case, a frequency sweep will be assumed and one experiment will be created for every list entry.
Not every channel is required to be specified. If not specified, the backend default value will be used.
-
meas_level (int or MeasLevel) – Set the appropriate level of the measurement output for pulse experiments.
-
meas_return (str or MeasReturn) – Level of measurement data for the backend to return For
meas_level
0 and 1:"single"
returns information from every shot."avg"
returns average measurement output (averaged over number of shots). -
memory_slots (int) – Number of classical memory slots used in this job.
-
memory_slot_size (int) – Size of each memory slot if the output is Level 0.
-
rep_time (int) – Time per program execution in seconds. Must be from the list provided by the backend (
backend.configuration().rep_times
). Defaults to the first entry. -
rep_delay (float) – Delay between programs in seconds. Only supported on certain backends (
backend.configuration().dynamic_reprate_enabled
). If supported,rep_delay
will be used instead ofrep_time
and must be from the range supplied by the backend (backend.configuration().rep_delay_range
). Default is given bybackend.configuration().default_rep_delay
. -
parameter_binds (list[dict]) – List of Parameter bindings over which the set of experiments will be executed. Each list element (bind) should be of the form
{Parameter1: value1, Parameter2: value2, ...}
. All binds will be executed across all experiments, e.g. if parameter_binds is a length- list, and there are experiments, a total of experiments will be run (one for each experiment/bind pair). -
schedule_circuit (bool) – If
True
,experiments
will be converted toqiskit.pulse.Schedule
objects prior to execution. -
inst_map (InstructionScheduleMap) – Mapping of circuit operations to pulse schedules. If None, defaults to the
instruction_schedule_map
ofbackend
. -
meas_map (list(list(int))) – List of sets of qubits that must be measured together. If None, defaults to the
meas_map
ofbackend
. -
scheduling_method (str orlist(str)) – Optionally specify a particular scheduling method.
-
init_qubits (bool) – Whether to reset the qubits to the ground state for each shot. Default:
True
. -
run_config (dict) – Extra arguments used to configure the run (e.g. for Aer configurable backends). Refer to the backend documentation for details on these arguments. Note: for now, these keyword arguments will both be copied to the Qobj config, and passed to backend.run()
Returns
returns job instance derived from Job
Return type
Raises
QiskitError – if the execution cannot be interpreted as either circuits or schedules
Example
Construct a 5-qubit GHZ circuit and execute 4321 shots on a backend.
from qiskit import QuantumCircuit, execute, BasicAer
backend = BasicAer.get_backend('qasm_simulator')
qc = QuantumCircuit(5, 5)
qc.h(0)
qc.cx(0, range(1, 5))
qc.measure_all()
job = execute(qc, backend, shots=4321)