DaskLSFBackend¶

class propertyestimator.backends.DaskLSFBackend(minimum_number_of_workers=1, maximum_number_of_workers=1, resources_per_worker=<propertyestimator.backends.backends.QueueWorkerResources object>, queue_name='default', setup_script_commands=None, extra_script_options=None, adaptive_interval='10000ms', disable_nanny_process=False, adaptive_class=None)[source]¶

A property estimator backend which uses a dask_jobqueue.LSFCluster object to run calculations within an existing LSF queue.

See also

dask_jobqueue.LSFCluster, DaskPBSBackend

__init__(minimum_number_of_workers=1, maximum_number_of_workers=1, resources_per_worker=<propertyestimator.backends.backends.QueueWorkerResources object>, queue_name='default', setup_script_commands=None, extra_script_options=None, adaptive_interval='10000ms', disable_nanny_process=False, adaptive_class=None)[source]¶

Constructs a new DaskLSFBackend object

Examples

To create an LSF queueing compute backend which will attempt to spin up workers which have access to a single GPU.

>>> # Create a resource object which will request a worker with
>>> # one gpu which will stay alive for five hours.
>>> from propertyestimator.backends import QueueWorkerResources
>>>
>>> resources = QueueWorkerResources(number_of_threads=1,
>>>                                  number_of_gpus=1,
>>>                                  preferred_gpu_toolkit=QueueWorkerResources.GPUToolkit.CUDA,
>>>                                  wallclock_time_limit='05:00')
>>>
>>> # Define the set of commands which will set up the correct environment
>>> # for each of the workers.
>>> setup_script_commands = [
>>>     'module load cuda/9.2',
>>> ]
>>>
>>> # Define extra options to only run on certain node groups
>>> extra_script_options = [
>>>     '-m "ls-gpu lt-gpu"'
>>> ]
>>>
>>>
>>> # Create the backend which will adaptively try to spin up between one and
>>> # ten workers with the requested resources depending on the calculation load.
>>> from propertyestimator.backends import DaskLSFBackend
>>>
>>> lsf_backend = DaskLSFBackend(minimum_number_of_workers=1,
>>>                              maximum_number_of_workers=10,
>>>                              resources_per_worker=resources,
>>>                              queue_name='gpuqueue',
>>>                              setup_script_commands=setup_script_commands,
>>>                              extra_script_options=extra_script_options)

Methods

`__init__`([minimum_number_of_workers, …])	Constructs a new DaskLSFBackend object
`job_script`()	Returns the job script that dask will use to submit workers.
`start`()	Start the calculation backend.
`stop`()	Stop the calculation backend.
`submit_task`(function, args, *kwargs)	Submit a task to the compute resources managed by this backend.

job_script()¶

Returns the job script that dask will use to submit workers. The backend must be started before calling this function.

Returns
Return type: str

start()¶: Start the calculation backend.

stop()¶: Stop the calculation backend.

submit_task(function, *args, **kwargs)¶

Submit a task to the compute resources managed by this backend.

Parameters: function (function) – The function to run.
Returns: Returns a future object which will eventually point to the results of the submitted task.
Return type: Future