- X : array, shape=(n_samples, p[, q])
Array where the first dimension corresponds to the
difference in paired samples (observations) in two conditions.
X[k]
can be a 1D or 2D array (time series
or TF image) associated to the kth observation.
- threshold : float | dict | None
If threshold is None, it will choose a t-threshold equivalent to
p < 0.05 for the given number of observations (only valid when
using an t-statistic). If a dict is used, then threshold-free
cluster enhancement (TFCE) will be used, and it must have keys
'start'
and 'step'
to specify the integration parameters,
see the TFCE example.
- n_permutations : int | ‘all’
The maximum number of permutations to compute. Can be ‘all’
to perform an exact test.
- tail : -1 or 0 or 1 (default = 0)
If tail is 1, the statistic is thresholded above threshold.
If tail is -1, the statistic is thresholded below threshold.
If tail is 0, the statistic is thresholded on both sides of
the distribution.
- stat_fun : callable | None
Function used to compute the statistical map (default None will use
mne.stats.ttest_1samp_no_p()
).
- connectivity : scipy.sparse.spmatrix | None | False
Defines connectivity between features. The matrix is assumed to
be symmetric and only the upper triangular half is used.
This matrix must be square with dimension (n_vertices * n_times) or
(n_vertices). Default is None, i.e, a regular lattice connectivity.
Use square n_vertices matrix for datasets with a large temporal
extent to save on memory and computation time. Can also be False
to assume no connectivity. Can also be False to assume no connectivity.
- verbose : bool, str, int, or None
If not None, override default verbose level (see mne.verbose()
and Logging documentation for more).
- n_jobs : int
Number of permutations to run in parallel (requires joblib package).
- seed : int | instance of RandomState | None
Seed the random number generator for results reproducibility.
- max_step : int
When connectivity is a n_vertices x n_vertices matrix, specify the
maximum number of steps between vertices along the second dimension
(typically time) to be considered connected. This is not used for full
or None connectivity matrices.
- exclude : boolean array or None
Mask to apply to the data to exclude certain points from clustering
(e.g., medial wall vertices). Should be the same shape as X. If None,
no points are excluded.
- step_down_p : float
To perform a step-down-in-jumps test, pass a p-value for clusters to
exclude from each successive iteration. Default is zero, perform no
step-down test (since no clusters will be smaller than this value).
Setting this to a reasonable value, e.g. 0.05, can increase sensitivity
but costs computation time.
- t_power : float
Power to raise the statistical values (usually t-values) by before
summing (sign will be retained). Note that t_power == 0 will give a
count of nodes in each cluster, t_power == 1 will weight each node by
its statistical score.
- out_type : str
For arrays with connectivity, this sets the output format for clusters.
If ‘mask’, it will pass back a list of boolean mask arrays.
If ‘indices’, it will pass back a list of lists, where each list is the
set of vertices in a given cluster. Note that the latter may use far
less memory for large datasets.
- check_disjoint : bool
If True, the connectivity matrix (or list) will be examined to
determine of it can be separated into disjoint sets. In some cases
(usually with connectivity as a list and many “time” points), this
can lead to faster clustering, but results should be identical.
- buffer_size: int or None
The statistics will be computed for blocks of variables of size
“buffer_size” at a time. This is option significantly reduces the
memory requirements when n_jobs > 1 and memory sharing between
processes is enabled (see set_cache_dir()), as X will be shared
between processes and each process only needs to allocate space
for a small block of variables.