Usage Notes

Warning

As of fMRIPrep 1.0.12, the software includes a tracking system to report usage statistics and errors. Users can opt-out using the --notrack command line argument.

Execution and the BIDS format

The fMRIPrep workflow takes as principal input the path of the dataset that is to be processed. The input dataset is required to be in valid BIDS format, and it must include at least one T1w structural image and (unless disabled with a flag) a BOLD series. We highly recommend that you validate your dataset with the free, online BIDS Validator.

The exact command to run fMRIPRep depends on the Installation method. The common parts of the command follow the BIDS-Apps definition. Example:

fmriprep data/bids_root/ out/ participant -w work/

Further information about BIDS and BIDS-Apps can be found at the NiPreps portal.

Command-Line Arguments

fMRIPrep: fMRI PREProcessing workflows v20.2.7

usage: fmriprep [-h] [--version] [--skip_bids_validation]
                [--participant-label PARTICIPANT_LABEL [PARTICIPANT_LABEL ...]]
                [-t TASK_ID] [--echo-idx ECHO_IDX] [--bids-filter-file FILE]
                [--anat-derivatives PATH] [--bids-database-dir PATH]
                [--nprocs NPROCS] [--omp-nthreads OMP_NTHREADS]
                [--mem MEMORY_MB] [--low-mem] [--use-plugin FILE]
                [--anat-only] [--boilerplate_only] [--md-only-boilerplate]
                [--error-on-aroma-warnings] [-v]
                [--ignore {fieldmaps,slicetiming,sbref,t2w,flair} [{fieldmaps,slicetiming,sbref,t2w,flair} ...]]
                [--longitudinal]
                [--output-spaces [OUTPUT_SPACES [OUTPUT_SPACES ...]]]
                [--bold2t1w-init {register,header}] [--bold2t1w-dof {6,9,12}]
                [--force-bbr] [--force-no-bbr] [--medial-surface-nan]
                [--slice-time-ref SLICE_TIME_REF] [--dummy-scans DUMMY_SCANS]
                [--random-seed _RANDOM_SEED] [--use-aroma]
                [--aroma-melodic-dimensionality AROMA_MELODIC_DIM]
                [--return-all-components]
                [--fd-spike-threshold REGRESSORS_FD_TH]
                [--dvars-spike-threshold REGRESSORS_DVARS_TH]
                [--skull-strip-template SKULL_STRIP_TEMPLATE]
                [--skull-strip-fixed-seed]
                [--skull-strip-t1w {auto,skip,force}] [--fmap-bspline]
                [--fmap-no-demean] [--use-syn-sdc] [--force-syn]
                [--fs-license-file FILE] [--fs-subjects-dir PATH]
                [--no-submm-recon] [--cifti-output [{91k,170k}] |
                --fs-no-reconall] [--output-layout {bids,legacy}]
                [-w WORK_DIR] [--clean-workdir] [--resource-monitor]
                [--reports-only] [--config-file FILE] [--write-graph]
                [--stop-on-first-crash] [--notrack]
                [--debug {compcor,all} [{compcor,all} ...]] [--sloppy]
                bids_dir output_dir {participant}

Positional Arguments

bids_dir

the root folder of a BIDS valid dataset (sub-XXXXX folders should be found at the top level in this folder).

output_dir

the output path for the outcomes of preprocessing and visual reports

analysis_level

Possible choices: participant

processing stage to be run, only “participant” in the case of fMRIPrep (see BIDS-Apps specification).

Named Arguments

--version

show program’s version number and exit

Options for filtering BIDS queries

--skip_bids_validation, --skip-bids-validation

assume the input dataset is BIDS compliant and skip the validation

--participant-label, --participant_label

a space delimited list of participant identifiers or a single identifier (the sub- prefix can be removed)

-t, --task-id

select a specific task to be processed

--echo-idx

select a specific echo to be processed in a multiecho series

--bids-filter-file

a JSON file describing custom BIDS input filters using PyBIDS. For further details, please check out https://fmriprep.readthedocs.io/en/20.2.7/faq.html#how-do-I-select-only-certain-files-to-be-input-to-fMRIPrep

--anat-derivatives

Reuse the anatomical derivatives from another fMRIPrep run or calculated with an alternative processing tool (NOT RECOMMENDED).

--bids-database-dir

Path to a PyBIDS database folder, for faster indexing (especially useful for large datasets). Will be created if not present.

Options to handle performance

--nprocs, --nthreads, --n_cpus, --n-cpus

maximum number of threads across all processes

--omp-nthreads

maximum number of threads per-process

--mem, --mem_mb, --mem-mb

upper bound memory limit for fMRIPrep processes

--low-mem

attempt to reduce memory usage (will increase disk usage in working directory)

--use-plugin, --nipype-plugin-file

nipype plugin configuration file

--anat-only

run anatomical workflows only

--boilerplate_only

generate boilerplate only

--md-only-boilerplate

skip generation of HTML and LaTeX formatted citation with pandoc

--error-on-aroma-warnings

Raise an error if ICA_AROMA does not produce sensible output (e.g., if all the components are classified as signal or noise)

-v, --verbose

increases log verbosity for each occurence, debug level is -vvv

Workflow configuration

--ignore

Possible choices: fieldmaps, slicetiming, sbref, t2w, flair

ignore selected aspects of the input dataset to disable corresponding parts of the workflow (a space delimited list)

--longitudinal

treat dataset as longitudinal - may increase runtime

--output-spaces

Standard and non-standard spaces to resample anatomical and functional images to. Standard spaces may be specified by the form <SPACE>[:cohort-<label>][:res-<resolution>][...], where <SPACE> is a keyword designating a spatial reference, and may be followed by optional, colon-separated parameters. Non-standard spaces imply specific orientations and sampling grids. Important to note, the res-* modifier does not define the resolution used for the spatial normalization. To generate no BOLD outputs, use this option without specifying any spatial references. For further details, please check out https://fmriprep.readthedocs.io/en/20.2.7/spaces.html

--bold2t1w-init

Possible choices: register, header

Either “register” (the default) to initialize volumes at center or “header” to use the header information when coregistering BOLD to T1w images.

--bold2t1w-dof

Possible choices: 6, 9, 12

Degrees of freedom when registering BOLD to T1w images. 6 degrees (rotation and translation) are used by default.

--force-bbr

Always use boundary-based registration (no goodness-of-fit checks)

--force-no-bbr

Do not use boundary-based registration (no goodness-of-fit checks)

--medial-surface-nan

Replace medial wall values with NaNs on functional GIFTI files. Only performed for GIFTI files mapped to a freesurfer subject (fsaverage or fsnative).

--slice-time-ref

The time of the reference slice to correct BOLD values to, as a fraction acquisition time. 0 indicates the start, 0.5 the midpoint, and 1 the end of acquisition. The alias start corresponds to 0, and middle to 0.5. The default value is 0.5.

--dummy-scans

Number of non steady state volumes.

--random-seed

Initialize the random seed for the workflow

Specific options for running ICA_AROMA

--use-aroma

add ICA_AROMA to your preprocessing stream

--aroma-melodic-dimensionality

Exact or maximum number of MELODIC components to estimate (positive = exact, negative = maximum)

Specific options for estimating confounds

--return-all-components

Include all components estimated in CompCor decomposition in the confounds file instead of only the components sufficient to explain 50 percent of BOLD variance in each CompCor mask

--fd-spike-threshold

Threshold for flagging a frame as an outlier on the basis of framewise displacement

--dvars-spike-threshold

Threshold for flagging a frame as an outlier on the basis of standardised DVARS

Specific options for ANTs registrations

--skull-strip-template

select a template for skull-stripping with antsBrainExtraction

--skull-strip-fixed-seed

do not use a random seed for skull-stripping - will ensure run-to-run replicability when used with –omp-nthreads 1 and matching –random-seed <int>

--skull-strip-t1w

Possible choices: auto, skip, force

determiner for T1-weighted skull stripping (‘force’ ensures skull stripping, ‘skip’ ignores skull stripping, and ‘auto’ applies brain extraction based on the outcome of a heuristic to check whether the brain is already masked).

Specific options for handling fieldmaps

--fmap-bspline

fit a B-Spline field using least-squares (experimental)

--fmap-no-demean

do not remove median (within mask) from fieldmap

Specific options for SyN distortion correction

--use-syn-sdc

EXPERIMENTAL: Use fieldmap-free distortion correction

--force-syn

EXPERIMENTAL/TEMPORARY: Use SyN correction in addition to fieldmap correction, if available

Specific options for FreeSurfer preprocessing

--fs-license-file

Path to FreeSurfer license key file. Get it (for free) by registering at https://surfer.nmr.mgh.harvard.edu/registration.html

--fs-subjects-dir

Path to existing FreeSurfer subjects directory to reuse. (default: OUTPUT_DIR/freesurfer)

Surface preprocessing options

--no-submm-recon

disable sub-millimeter (hires) reconstruction

--cifti-output

Possible choices: 91k, 170k

output preprocessed BOLD as a CIFTI dense timeseries. Optionally, the number of grayordinate can be specified (default is 91k, which equates to 2mm resolution)

--fs-no-reconall

disable FreeSurfer surface preprocessing.

Other options

--output-layout

Possible choices: bids, legacy

Organization of outputs. legacy (default) creates derivative datasets as subdirectories of outputs. bids places fMRIPrep derivatives directly in the output directory, and defaults to placing FreeSurfer derivatives in <output-dir>/sourcedata/freesurfer.

-w, --work-dir

path where intermediate results should be stored

--clean-workdir

Clears working directory of contents. Use of this flag is notrecommended when running concurrent processes of fMRIPrep.

--resource-monitor

enable Nipype’s resource monitoring to keep track of memory and CPU usage

--reports-only

only generate reports, don’t run workflows. This will only rerun report aggregation, not reportlet generation for specific nodes.

--config-file

Use pre-generated configuration file. Values in file will be overridden by command-line arguments.

--write-graph

Write workflow graph.

--stop-on-first-crash

Force stopping on first crash, even if a work directory was specified.

--notrack

Opt-out of sending tracking information of this run to the FMRIPREP developers. This information helps to improve FMRIPREP and provides an indicator of real world usage crucial for obtaining funding.

--debug

Possible choices: compcor, all

Debug mode(s) to enable. ‘all’ is alias for all available modes.

--sloppy

Use low-quality tools for speed - TESTING ONLY

The command-line interface of the docker wrapper

The fMRIPrep on Docker wrapper

This is a lightweight Python wrapper to run fMRIPrep. Docker must be installed and running. This can be checked running

docker info

Please report any feedback to our GitHub repository (https://github.com/nipreps/fmriprep) and do not forget to credit all the authors of software that fMRIPrep uses (https://fmriprep.readthedocs.io/en/latest/citing.html).

usage: fmriprep-docker [-h] [--version] [-i IMG] [-w WORK_DIR]
                       [--output-spaces [OUTPUT_SPACES [OUTPUT_SPACES ...]]]
                       [--fs-license-file PATH] [--fs-subjects-dir PATH]
                       [--config-file PATH] [--anat-derivatives PATH]
                       [--use-plugin PATH] [--bids-database-dir PATH]
                       [--bids-filter-file PATH]
                       [--patch PACKAGE=PATH [PACKAGE=PATH ...]] [--shell]
                       [--config PATH] [-e ENV_VAR value] [-u USER]
                       [--network NETWORK] [--no-tty]
                       [bids_dir] [output_dir] [{participant}]

Positional Arguments

bids_dir
output_dir
analysis_level

Possible choices: participant

Named Arguments

-h, --help

show this help message and exit

--version

show program’s version number and exit

-i, --image

image name

Wrapper options

Standard options that require mapping files into the container

-w, --work-dir

path where intermediate results should be stored

--output-spaces

Standard and non-standard spaces to resample anatomical and functional images to. Standard spaces may be specified by the form <TEMPLATE>[:res-<resolution>][:cohort-<label>][...], where <TEMPLATE> is a keyword (valid keywords: “MNI152Lin”, “MNI152NLin2009cAsym”, “MNI152NLin6Asym”, “MNI152NLin6Sym”, “MNIInfant”, “MNIPediatricAsym”, “NKI”, “OASIS30ANTs”, “PNC”, “UNCInfant”, “fsLR”, “fsaverage”, “fsaverage5”, “fsaverage6”) or path pointing to a user-supplied template, and may be followed by optional, colon-separated parameters. Non-standard spaces (valid keywords: anat, T1w, run, func, sbref, fsnative) imply specific orientations and sampling grids. Important to note, the res-* modifier does not define the resolution used for the spatial normalization.

--fs-license-file

Path to FreeSurfer license key file. Get it (for free) by registering at https://surfer.nmr.mgh.harvard.edu/registration.html

--fs-subjects-dir

Path to existing FreeSurfer subjects directory to reuse. (default: OUTPUT_DIR/freesurfer)

--config-file

Use pre-generated configuration file. Values in file will be overridden by command-line arguments.

--anat-derivatives

Path to existing sMRIPrep/fMRIPrep-anatomical derivatives to fasttrack the anatomical workflow.

--use-plugin

nipype plugin configuration file

--bids-database-dir

Path to an existing PyBIDS database folder, for faster indexing (especially useful for large datasets).

--bids-filter-file

a JSON file describing custom BIDS input filters using PyBIDS. For further details, please check out https://fmriprep.readthedocs.io/en/latest/faq.html#how-do-I-select-only-certain-files-to-be-input-to-fMRIPrep

Developer options

Tools for testing and debugging FMRIPREP

--patch

local repository to use within container

--shell

open shell in image instead of running FMRIPREP

--config

Use custom nipype.cfg file

-e, --env

Set custom environment variable within container

-u, --user

Run container as a given user/uid. Additionally, group/gid can beassigned, (i.e., –user <UID>:<GID>)

--network

Run container with a different network driver (“none” to simulate no internet connection)

--no-tty

Run docker without TTY flag -it

The FreeSurfer license

fMRIPRep uses FreeSurfer tools, which require a license to run.

To obtain a FreeSurfer license, simply register for free at https://surfer.nmr.mgh.harvard.edu/registration.html.

When using manually-prepared environments or singularity, FreeSurfer will search for a license key file first using the $FS_LICENSE environment variable and then in the default path to the license key file ($FREESURFER_HOME/license.txt). If using the --cleanenv flag and $FS_LICENSE is set, use --fs-license-file $FS_LICENSE to pass the license file location to fMRIPRep.

It is possible to run the docker container pointing the image to a local path where a valid license file is stored. For example, if the license is stored in the $HOME/.licenses/freesurfer/license.txt file on the host system:

$ docker run -ti --rm \
    -v $HOME/fullds005:/data:ro \
    -v $HOME/dockerout:/out \
    -v $HOME/.licenses/freesurfer/license.txt:/opt/freesurfer/license.txt \
    nipreps/fmriprep:latest \
    /data /out/out \
    participant \
    --ignore fieldmaps

Using FreeSurfer can also be enabled when using fmriprep-docker:

$ fmriprep-docker --fs-license-file $HOME/.licenses/freesurfer/license.txt \
    /path/to/data/dir /path/to/output/dir participant
RUNNING: docker run --rm -it -v /path/to/data/dir:/data:ro \
    -v /home/user/.licenses/freesurfer/license.txt:/opt/freesurfer/license.txt \
    -v /path/to_output/dir:/out nipreps/fmriprep:1.0.0 \
    /data /out participant
...

If the environment variable $FS_LICENSE is set in the host system, then it will automatically used by fmriprep-docker. For instance, the following would be equivalent to the latest example:

$ export FS_LICENSE=$HOME/.licenses/freesurfer/license.txt
$ fmriprep-docker /path/to/data/dir /path/to/output/dir participant
RUNNING: docker run --rm -it -v /path/to/data/dir:/data:ro \
    -v /home/user/.licenses/freesurfer/license.txt:/opt/freesurfer/license.txt \
    -v /path/to_output/dir:/out nipreps/fmriprep:1.0.0 \
    /data /out participant
...

Reusing precomputed derivatives

Reusing a previous, partial execution of fMRIPrep

fMRIPrep will pick up where it left off a previous execution, so long as the work directory points to the same location, and this directory has not been changed/manipulated.

Using a previous run of FreeSurfer

fMRIPrep will automatically reuse previous runs of FreeSurfer if a subject directory named freesurfer/ is found in the output directory (<output_dir>/freesurfer). Reconstructions for each participant will be checked for completeness, and any missing components will be recomputed. You can use the --fs-subjects-dir flag to specify a different location to save FreeSurfer outputs. If precomputed results are found, they will be reused.

The anatomical fast-track

Starting with version 20.1.0, fMRIPrep has a command-line argument (--anat-derivatives <PATH>) to indicate a path from which the preprocessed information derived from the T1w, T2w (if present) and FLAIR (if present) images. This feature was envisioned to help process very large multi-session datasets where the anatomical images can be averaged (i.e., anatomy is not expected to vary substantially across sessions). An example where this kind of processing would be useful is My Connectome, a dataset that contains 107 sessions for a single-subject. Most of these sessions contain anatomical information which, given the design of the dataset, can be averaged across sessions as no substantial changes should happen. In other words, the anatomical information of the dataset can be considered as cross-sectional. Before version 20.1.0, preprocessing this dataset would be hard for two limitations:

  • if the dataset were to be processed in just one enormous job (be it in a commercial Cloud or HPC resources), the amount of data to be processed surely would exceed the time limitations per job (and/or related issues, such as restarting from where it left before); or

  • if the processing were split in sessions, then fMRIPrep would attempt to re-process the anatomical information for every session.

Because processing this emerging type of datasets (densely sampled neuroimaging) was impractical with fMRIPrep, the option --anat-derivatives will shortcut the whole anatomical processing.

Danger

Using the anatomical fast-track (the --anat-derivatives argument) has important side-effects that risk the reproducibility and reliability of fMRIPrep. This flag breaks fMRIPrep’s internal tracing of provenance, and it trusts whatever input fMRIPrep is given (so long it is BIDS-Derivatives compliant and contains all the necessary files).

When reporting results obtained with --anat-derivatives, please make sure you highlight this particular deviation from fMRIPrep, and clearly describe the alternative preprocessing of anatomical data.

Attention

When the intention is to combine the anatomical fast-track with some advanced options that involve standard spaces (e.g., --use-aroma or --cifti-output), please make sure you include the MNI152NLin6Asym space to the --output-spaces list in the first invocation of fMRIPrep (or sMRIPrep) from which the results are to be reused. Otherwise, a warning message indicating that fMRIPrep’s expectations were not met will be issued, and the pre-computed anatomical derivatives will not be reused.

Troubleshooting

Logs and crashfiles are outputted into the <output dir>/fmriprep/sub-<participant_label>/log directory. Information on how to customize and understand these files can be found on the nipype debugging page.

Support and communication. The documentation of this project is found here: http://fmriprep.readthedocs.org/en/latest/.

All bugs, concerns and enhancement requests for this software can be submitted here: https://github.com/nipreps/fmriprep/issues.

If you have a problem or would like to ask a question about how to use fMRIPRep, please submit a question to NeuroStars.org with an fmriprep tag. NeuroStars.org is a platform similar to StackOverflow but dedicated to neuroinformatics.

Previous questions about fMRIPRep are available here: http://neurostars.org/tags/fmriprep/

To participate in the fMRIPRep development-related discussions please use the following mailing list: http://mail.python.org/mailman/listinfo/neuroimaging Please add [fmriprep] to the subject line when posting on the mailing list.