mne.io.read_raw_ctf#
- mne.io.read_raw_ctf(directory, system_clock='truncate', preload=False, clean_names=False, verbose=None)[source]#
Raw object from CTF directory.
- Parameters:
- directory
str
Path to the CTF data (ending in
'.ds'
).- system_clock
str
How to treat the system clock. Use “truncate” (default) to truncate the data file when the system clock drops to zero, and use “ignore” to ignore the system clock (e.g., if head positions are measured multiple times during a recording).
- preload
bool
orstr
(defaultFalse
) Preload data into memory for data manipulation and faster indexing. If True, the data will be preloaded into memory (fast, requires large amount of memory). If preload is a string, preload is the file name of a memory-mapped file which is used to store the data on the hard drive (slower, requires less memory).
- clean_names
bool
, optional If True main channel names and compensation channel names will be cleaned from CTF suffixes. The default is False.
- verbose
bool
|str
|int
|None
Control verbosity of the logging output. If
None
, use the default verbosity level. See the logging documentation andmne.verbose()
for details. Should only be passed as a keyword argument.
- directory
- Returns:
- rawinstance of RawCTF
The raw data.
See also
mne.io.Raw
Documentation of attribute and methods.
Notes
New in version 0.11.
To read in the Polhemus digitization data (for example, from a .pos file), include the file in the CTF directory. The points will then automatically be read into the
mne.io.Raw
instance viamne.io.read_raw_ctf
.
Examples using mne.io.read_raw_ctf
#
Importing data from MEG devices
Working with CTF data: the Brainstorm auditory dataset
Brainstorm CTF phantom dataset tutorial
Annotate movement artifacts and reestimate dev_head_t
Plotting topographic arrowmaps of evoked data
Plotting sensor layouts of MEG systems
Continuous Target Decoding with SPoC
Compute Spectro-Spatial Decomposition (SSD) spatial filters
Brainstorm raw (median nerve) dataset
From raw data to dSPM on SPM Faces dataset