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preprocessing = Workflow(name='preprocessing')
preprocessing = Workflow(name='preprocessing')


# using fMRI's linear image registration tool for intra-modal motion correction
mcflirt = Node(fsl.MCFLIRT(), name='mcflirt')
mcflirt = Node(fsl.MCFLIRT(), name='mcflirt')
mean = Node(fsl.MeanImage(), name='mean')
mean = Node(fsl.MeanImage(), name='mean')


# add Nodes to Workflow
preprocessing.connect(mcflirt, 'out_file', mean, 'in_file')
preprocessing.connect(mcflirt, 'out_file', mean, 'in_file')


mcflirt.inputs.in_file = '/home/ychi/nipype/ds000003/sub-01/func/sub-01_task-rhymejudgment_bold.nii.gz'
mcflirt.inputs.in_file = '/home/ychi/nipype/ds000003/sub-01/func/sub-01_task-rhymejudgment_bold.nii.gz'


# Workflow execution
preprocessing.run()
preprocessing.run()
</syntaxhighlight>
== Using Nipype Plugins ==
As shown in [[#What_is_Nipype? | the figure above]], Nipype's workflow engine supports a plugin architecture for workflow execution. The available plugins, such as SGE, PBS, HTCondor, LSF, Slurm or OAR allow local and distributed execution of workflows and debugging.
All plugins can be executed by calling:
<code>workflow.run(plugin=PLUGIN_NAME, plugin_args=ARGS_DICT)</code>
=== Using Nipype's OAR plugin ==
For example, to execute the basic preprocessing example above with OAR resources, you need to call:
<code>workflow.run(plugin='OAR')</code>
Note: you can also provide traditional oarsub arguments by using the <code>oarsub_args</code> parameter:
<syntaxhighlight lang="python">
workflow.run(plugin='oar', plugin_args=dict(oarsub_args='-q default')
</syntaxhighlight>
Other parameters supported by OAR plugin are:
* <code> template </code>: custom template file 'hello-world.sh' for batch job submission
* <code> max_jobname_len </code>: maximum length of the job name.  Default 15.
<syntaxhighlight lang="python">
</syntaxhighlight>
=== Using Nipype's Slurm plugin ==
For example, to execute the basic preprocessing example above with Slurm resources, you need to call:
<code>workflow.run(plugin='OAR')</code>
Note: you can also provide traditional oarsub arguments by using the <code>oarsub_args</code> parameter:
<syntaxhighlight lang="python">
workflow.run(plugin='oar', plugin_args=dict(oarsub_args='-q default')
</syntaxhighlight>
Other parameters supported by OAR plugin are:
* <code> template </code>: custom template file 'hello-world.sh' for batch job submission
* <code> max_jobname_len </code>: maximum length of the job name.  Default 15.
<syntaxhighlight lang="python">


</syntaxhighlight>
</syntaxhighlight>

Revision as of 15:44, 7 November 2023

Note.png Note

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Nipype

What is Nipype?


Fninf-05-00013-g001.jpg

Nipype (Neuroimaging in Python Pipelines and Interfaces) is a flexible, lightweight and extensible neuroimaging data processing framework in Python.

It is a community-developed initiative under the umbrella of Nipy.

It addresses the heterogeneous collection of specialized applications in neuroimaging: SPM in MATLAB, FSL in shell, and Nipy in Python.

A uniform interface is proposed to facilitate interaction between these different packages within a single workflow.

The source code, issues and pull requests can be found here.

The fundamental parts of Nipype are Interfaces, the Workflow Engine and the Execution Plugins, as you can see in the figure at the left:

  • Interface: wraps a program or function
  • (Map)Node: wraps an Interface for use in a Workflow
  • Workflow: a graph or a forest of graphs whose edges represent data flow
  • Plugin: a component which describes how a Workflow should be executed

Among the execution plugins, you can find

  • an OAR plugin here.
  • an Slurm plugin here.


Installation

pip can be used to install the stable release of Nipype:

Terminal.png fontend.site:
pip install --user nipype

It is recommended to install python dependencies within a virtual environment. To do so, execute the following commands before running the pip command:

Terminal.png frontend.site:
python3 -m venv nipype
Terminal.png frontend.site:
source nipype/bin/activate
Terminal.png frontend.site:
pip install nipype


Basic usage

Let's assume that you have previously installed Nipype's dependencies and you have installed fsl to process the Rhyme judgment dataset available on OpenNeuro.

Here, we present an basic example of performing pre-processing using Nipype:

import nipype.interfaces.fsl as fsl
from nipype import Node, Workflow

preprocessing = Workflow(name='preprocessing')

# using fMRI's linear image registration tool for intra-modal motion correction
mcflirt = Node(fsl.MCFLIRT(), name='mcflirt')
mean = Node(fsl.MeanImage(), name='mean')

# add Nodes to Workflow
preprocessing.connect(mcflirt, 'out_file', mean, 'in_file')

mcflirt.inputs.in_file = '/home/ychi/nipype/ds000003/sub-01/func/sub-01_task-rhymejudgment_bold.nii.gz'

# Workflow execution
preprocessing.run()

Using Nipype Plugins

As shown in the figure above, Nipype's workflow engine supports a plugin architecture for workflow execution. The available plugins, such as SGE, PBS, HTCondor, LSF, Slurm or OAR allow local and distributed execution of workflows and debugging.

All plugins can be executed by calling:

workflow.run(plugin=PLUGIN_NAME, plugin_args=ARGS_DICT)

= Using Nipype's OAR plugin

For example, to execute the basic preprocessing example above with OAR resources, you need to call:

workflow.run(plugin='OAR')

Note: you can also provide traditional oarsub arguments by using the oarsub_args parameter:

workflow.run(plugin='oar', plugin_args=dict(oarsub_args='-q default')

Other parameters supported by OAR plugin are:

  • template : custom template file 'hello-world.sh' for batch job submission
  • max_jobname_len : maximum length of the job name. Default 15.


= Using Nipype's Slurm plugin

For example, to execute the basic preprocessing example above with Slurm resources, you need to call:

workflow.run(plugin='OAR')

Note: you can also provide traditional oarsub arguments by using the oarsub_args parameter:

workflow.run(plugin='oar', plugin_args=dict(oarsub_args='-q default')

Other parameters supported by OAR plugin are:

  • template : custom template file 'hello-world.sh' for batch job submission
  • max_jobname_len : maximum length of the job name. Default 15.


Pydra

Pydra is a part of the second generation of the Nipype ecosystem, which is meant to provide additional flexibility and reproducibility. Pydra rewrites Nipype engine with mapping and joining as first-class operations. However, Pydra does not have OAR Support. Examples and details of Pydra's OAR extension can be found here.