Qiskit Tools (qiskit.tools)#
Parallel Routines#
A helper function for calling a custom function with python ProcessPoolExecutor.
Tasks can be executed in parallel using this function.
It has a built-in event publisher to show the progress of the parallel tasks.
- qiskit.tools.parallel_map(task, values, task_args=(), task_kwargs={}, num_processes=2)[source]#
Parallel execution of a mapping of values to the function task. This is functionally equivalent to:
result = [task(value, *task_args, **task_kwargs) for value in values]
On Windows this function defaults to a serial implementation to avoid the overhead from spawning processes in Windows.
- প্যারামিটার:
task (func) -- Function that is to be called for each value in
values.values (array_like) -- List or array of values for which the
taskfunction is to be evaluated.task_args (list) -- Optional additional arguments to the
taskfunction.task_kwargs (dict) -- Optional additional keyword argument to the
taskfunction.num_processes (int) -- Number of processes to spawn.
- রিটার্নস:
- The result list contains the value of
task(value, *task_args, **task_kwargs)foreach value in
values.
- রিটার্ন টাইপ:
result
- রেইজেস:
QiskitError -- If user interrupts via keyboard.
- Events:
terra.parallel.start: The collection of parallel tasks are about to start. terra.parallel.update: One of the parallel task has finished. terra.parallel.finish: All the parallel tasks have finished.
Examples
import time from qiskit.tools.parallel import parallel_map def func(_): time.sleep(0.1) return 0 parallel_map(func, list(range(10)));
Monitoring#
A helper module to get IBM backend information and submitted job status.
- qiskit.tools.job_monitor(job, interval=None, quiet=False, output=<_io.TextIOWrapper name='<stdout>' mode='w' encoding='utf-8'>, line_discipline='\r')[source]#
Monitor the status of a IBMQJob instance.
- প্যারামিটার:
job (BaseJob) -- Job to monitor.
interval (int) -- Time interval between status queries.
quiet (bool) -- If True, do not print status messages.
output (file) -- The file like object to write status messages to.
sys.stdout. (By default this is) --
line_discipline (string) -- character emitted at start of a line of job monitor output,
r. (This defaults to) --
Examples
from qiskit import BasicAer, transpile from qiskit.circuit import QuantumCircuit from qiskit.tools.monitor import job_monitor sim_backend = BasicAer.get_backend("qasm_simulator") qc = QuantumCircuit(2, 2) qc.h(0) qc.cx(0, 1) qc.measure_all() tqc = transpile(qc, sim_backend) job_sim = sim_backend.run(tqc) job_monitor(job_sim)
- qiskit.tools.backend_monitor(backend)[source]#
Monitor a single IBMQ backend.
- প্যারামিটার:
backend (IBMQBackend) -- Backend to monitor.
- রেইজেস:
QiskitError -- Input is not a IBMQ backend.
MissingOptionalLibraryError -- If qiskit-ibmq-provider is not installed
Examples: .. code-block:: python
from qiskit.providers.ibmq import IBMQ from qiskit.tools.monitor import backend_monitor provider = IBMQ.get_provider(hub='ibm-q') backend_monitor(provider.backends.ibmq_lima)
- qiskit.tools.backend_overview()[source]#
Gives overview information on all the IBMQ backends that are available.
Examples
from qiskit.providers.ibmq import IBMQ from qiskit.tools.monitor import backend_overview provider = IBMQ.get_provider(hub='ibm-q') backend_overview()
Events (qiskit.tools.events)#
A helper component for publishing and subscribing to events.
- class qiskit.tools.events.TextProgressBar(output_handler=None)[source]#
A simple text-based progress bar.
- output_handlerthe handler the progress bar should be written to, default
is sys.stdout, another option is sys.stderr
Examples
The progress bar can be used to track the progress of a parallel_map.
import numpy as np import qiskit.tools.jupyter from qiskit.tools.parallel import parallel_map from qiskit.tools.events import TextProgressBar TextProgressBar() %qiskit_progress_bar -t text parallel_map(np.sin, np.linspace(0,10,100));
And it can also be used individually.
from qiskit.tools.events import TextProgressBar iterations = 100 t = TextProgressBar() t.start(iterations=iterations) for i in range(iterations): # step i of heavy calculation ... t.update(i + 1) # update progress bar