Java application to convert image file formats, including .mrxs, to an intermediate Zarr structure compatible with the OME-NGFF specification. The raw2ometiff application can then be used to produce a Bio-Formats 5.9.x ("Faas") or Bio-Formats 6.x (true OME-TIFF) pyramid.
Java 8 or later is required.
libblosc (https://github.com/Blosc/c-blosc) version 1.9.0 or later must be installed separately. The native libraries are not packaged with any relevant jars. See also note in jzarr readme (https://github.com/bcdev/jzarr/blob/master/README.md)
- macOS:
brew install c-blosc
then setJAVA_OPTS=-Djna.library.path=$(echo $(brew --cellar c-blosc)/*/lib/)
- Windows: Pre-built blosc DLLs are available from the Fiji project. Rename the downloaded DLL to
blosc.dll
and place in a fixed location then setJAVA_OPTS="-Djna.library.path=C:\path\to\blosc\folder"
. - Ubuntu 18.04+:
apt-get install libblosc1
- conda: Installing
bioformats2raw
via conda (see below) will includeblosc
as a dependency.
If using features that rely on OpenCV (see the Downsampling type section below), minimum supported versions are:
- Ubuntu 18.04
- RHEL 8
- Windows 10
- expect to see warnings as described in opencv/opencv#20113; these can be ignored
NOTE: If you are setting jna.library.path
via the JAVA_OPTS
environment variable, make sure the path is to the folder containing the library not path to the library itself.
-
Download and unpack a release artifact:
https://github.com/glencoesoftware/bioformats2raw/releases
-
OR, install via
conda
as described at conda-bioformats2raw.
-
Clone the repository:
git clone https://github.com/glencoesoftware/bioformats2raw.git
-
Run the Gradle build as required, a list of available tasks can be found by running:
./gradlew tasks
Logging is provided using the logback library. The logback.xml
file in src/dist/lib/config/
provides a default configuration for the command line tool.
In release and snapshot artifacts, logback.xml
is in lib/config/
.
You can configure logging by editing the provided logback.xml
or by specifying the path to a different file:
JAVA_OPTS="-Dlogback.configurationFile=/path/to/external/logback.xml" \
bioformats2raw ...
Alternatively you can use the --debug
flag, optionally writing the stdout to a file:
bioformats2raw /path/to/file.mrxs /path/to/zarr-pyramid --debug > bf2raw.log
The --log-level
option takes an slf4j logging level for additional simple logging configuration.
--log-level DEBUG
is equivalent to --debug
. For even more verbose logging:
bioformats2raw /path/to/file.mrxs /path/to/zarr-pyramid --log-level TRACE
-
Run the Gradle Eclipse task:
./gradlew eclipse
-
Add the logback configuration in
src/dist/lib/config/
to your CLASSPATH.
Run the conversion:
bioformats2raw /path/to/file.mrxs /path/to/zarr-pyramid
bioformats2raw /path/to/file.svs /path/to/zarr-pyramid
By default, the resolutions will be set so that the smallest resolution is no greater than 256x256.
The target of the smallest resolution can be configured with --target-min-size
e.g. to ensure
that the smallest resolution is no greater than 128x128
bioformats2raw /path/to/file.mrxs /path/to/zarr-pyramid --target-min-size 128
bioformats2raw /path/to/file.svs /path/to/zarr-pyramid --target-min-size 128
Alternatively, the --resolutions
options can be passed to specify the exact number of resolution levels:
bioformats2raw /path/to/file.mrxs /path/to/zarr-pyramid --resolutions 6
bioformats2raw /path/to/file.svs /path/to/zarr-pyramid --resolutions 6
Maximum tile dimensions can be configured with the --tile-width
and --tile-height
options. Defaults can be viewed with
bioformats2raw --help
. Be mindful of the downstream workflow when selecting a tile size other than the default.
A smaller than default tile size is rarely recommended.
If the input file has multiple series, a subset of the series can be converted by specifying a comma-separated list of indexes:
bioformats2raw /path/to/file.scn /path/to/zarr-pyramid --series 0,2,3,4
By default, several additional readers are added to the beginning of Bio-Formats' list of reader classes. These readers are considered to be experimental and as a result only a limited range of input data is supported. See the Additional readers section below for more information.
Any of these readers can be excluded with the --extra-readers
option:
# only include the reader for .mrxs
bioformats2raw /path/to/file.tiff /path/to/zarr-pyramid --extra-readers com.glencoesoftware.bioformats2raw.MiraxReader
# don't add any additional readers, just use the ones provided by Bio-Formats
bioformats2raw /path/to/file.mrxs /path/to/zarr-pyramid --extra-readers
Reader-specific options can be specified using --options
:
bioformats2raw /path/to/file.mrxs /path/to/zarr-pyramid --options mirax.use_metadata_dimensions=false
Be aware when experimenting with different values for --options
that the corresponding memo (cache) file may need to be
removed in order for new options to take effect. This file will be e.g. /path/to/.file.mrxs.bfmemo
.
The output in /path/to/zarr-pyramid
can be passed to raw2ometiff
to produce
an OME-TIFF that can be opened in ImageJ, imported into OMERO, etc. See
https://github.com/glencoesoftware/raw2ometiff for more information.
By default, output is compressed with Blosc using the lz4
codec.
To change the overall compression type, use --compression <type>
. Supported types are blosc
, zlib
, and null
(uncompressed).
To change type-specific options, use --compression-options <key=value>
.
Supported options for blosc
are:
cname=<codec>
, where the default iscname=lz4
.zstd
,zlib
,blosclz
, andlz4hc
are also valid values ofcname
.clevel=<level>
, where the default isclevel=5
. Valid values are integers from 1 to 9 inclusive.
Supported options for zlib
are:
level=<level>
, where the default islevel=1
. Valid values are integers from 1 to 9 inclusive.
There are no supported compression options for type null
, as this is uncompressed data.
While --compression blosc --compression-options cname=lz4 --compression-options clevel=5
is the default,
some datasets perform better in time and/or space with different choices. For workflows where the size of the output Zarr,
total conversion time, and/or time required to decompress a chunk are important, it is a good idea to
benchmark several different options with the real input data being used. See also the Performance section below.
In some tests, we have found that --compression blosc --compression-options cname=zstd --compression-options clevel=3
may be a reasonable choice if compressed size is more important than conversion or decompression times.
By default, the output of bioformats2raw
will be a
Zarr dataset which follows the
metadata conventions defined by the
OME-NGFF 0.4 specification including the
bioformats2raw.layout specification.
Several formatting options can be passed to the converter and will result in a Zarr dataset that is not compatible with raw2ometiff and does not strictly follow the OME-NGFF specification but may be suitable for other applications.
Specifies a subdirectory of the output directory where Zarr data should be written. Using this option will insert another level into the output hierarchy, for example:
$ bin/bioformats2raw --pyramid-name pyramid-test "test&sizeX=4096&sizeY&=4096&sizeZ=3.fake" example1
$ tree example1
example1/
└── pyramid-test
├── 0
│ ├── 0
...
│ ├── 1
...
│ ├── 2
...
│ ├── 3
...
│ └── 4
...
└── OME
└── METADATA.ome.xml
A Java format string that defines
how series and resolutions should be described in the output directory hierarchy.
The default value is %d/%d
; the first argument supplied to the format string is the series index (from 0)
and the second argument is the resolution index (also from 0).
An example of removing the series index from the hierarchy altogether:
$ bin/bioformats2raw --scale-format-string '%2$d/' "test&sizeX=4096&sizeY&=4096&sizeZ=3.fake" example2
$ tree example2
example2/
├── 0
...
├── 1
...
├── 2
...
├── 3
...
├── 4
└── OME
└── METADATA.ome.xml
Note the trailing /
and quotes around the --scale-format-string
argument.
Omitting the trailing /
may cause an error, and single quotes are often necessary to prevent shell expansion.
Specify a .csv file that contains additional information which can be used by --scale-format-string
.
The .csv must contain one row per series, and must not contain a header row.
Each column will be passed as an additional argument when formatting the --scale-format-string
argument.
An example .csv that defines a unique ID, acquisition date, and username for a series:
$ cat example3.csv
12345,2021-07-21,user_xyz
which can then be used to create a hierarchy by date, username, and ID:
$ bin/bioformats2raw --additional-scale-format-string-args example3.csv --scale-format-string '%4$s/%5$s/%3$s/%1$d/%2$d' "test&sizeX=4096&size&=4096&sizeZ=3.fake" example3
$ tree example3
example3/
├── 2021-07-21
│ └── user_xyz
│ └── 12345
│ └── 0
│ ├── 0
...
│ ├── 1
...
│ ├── 2
...
│ ├── 3
...
│ └── 4
...
└── OME
└── METADATA.ome.xml
Prevents the input file's OME-XML metadata from being saved. There will no longer be an OME
directory
under the top-level output directory.
Prevents OriginalMetadata
annotations from being written to OME/METADATA.ome.xml
.
This can reduce the size of the OME-XML, and as discussed in #250,
is one way to guard against unwanted experimental metadata being included in the conversion.
By default, a Zarr group (.zgroup
file) is written in the top-level output directory.
Adding the --no-root-group
option prevents this group from being written.
Versions 0.2.6 and prior supported both N5 and Zarr output using the --file_type
option.
This option is not present in 0.3.0 and later, as only Zarr output is supported.
Versions 0.2.6 and prior used the input file's dimension order to determine the output
dimension order, unless --dimension-order
was specified.
Version 0.3.0 uses the TCZYX
order by default, for compatibility with https://ngff.openmicroscopy.org/0.2/#image-layout.
The --dimension-order
option can still be used to set a specific output dimension order, e.g.:
bioformats2raw /path/to/file.mrxs /path/to/zarr-pyramid --dimension-order XYCZT
or can be set to use the input file's ordering, preserving the behavior of 0.2.6:
bioformats2raw /path/to/file.mrxs /path/to/zarr-pyramid --dimension-order original
If a specific dimension order is passed to --dimension-order
, it must be a valid dimension order as defined in
the OME 2016-06 schema.
The specified dimension order is then reversed when creating Zarr arrays, e.g. XYCZT
would become TZCYX
in Zarr.
Prior to version 0.3.0, N5/Zarr output was placed in a subdirectory (data.[n5|zarr]
) with a METADATA.ome.xml
file
at the same level. As of 0.3.0 the desired output directory is now a Zarr group and the METADATA.ome.xml
file is
placed in a OME
directory within. These changes reflect layout version 3.
Prior to version 0.5.0, the plate and series Zarr groups followed the metadata defined in
the 0.2 version of the OME-NGFF specification. As of
0.5.0, these groups now follow the metadata conventions defined in the
0.4 version of the OME-NGFF specification. Additionally,
the layout of the top-level Zarr group is now part of the upstream specification - see
https://ngff.openmicroscopy.org/0.4/#bf2raw and the OME
directory containing the
METADATA.ome.xml
file is now a Zarr group.
Versions 0.5.0 and later write OMERO rendering metadata
by default. This includes calculating the minimum and maximum pixel values for the entire image.
We recommend keeping this metadata for maximum compatibility with downstream applications, but it can
be omitted by using the --no-minmax
option.
This package is highly sensitive to underlying hardware as well as the following configuration options:
--max-workers
--tile-width
--tile-height
--compression
--compression-options
On systems with significant I/O bandwidth, particularly SATA or NVMe based storage, you may find sharply diminishing returns with high worker counts. There are significant performance gains to be had utilizing larger tile sizes but be mindful of the consequences on the downstream workflow. Smaller tile sizes than the default are rarely recommended.
The worker count defaults to the number of detected CPUs. This may or may not be appropriate for the chosen input data. If reading a single tile from the input data requires a lot of memory, decreasing the worker count will be necessary to prevent memory exhaustion. JPEG, PNG, and certain TIFFs are especially susceptible to this problem.
The worker count should be set to 1 if the input data requires a Bio-Formats reader that is not thread-safe. This is not a common case, but is a known issue with Imaris HDF data in particular.
In general, expect to need to tune the above settings and measure
relative performance. See the Compression options section above for more information on --compression
and --compression-options
.
During conversion, a temporary .*.bfmemo
file may be created. By default, this file is in the same directory as the input data
and will be removed after the conversion finishes. The location of the .*.bfmemo
file can be configured using the --memo-directory
option:
bioformats2raw /path/to/file.mrxs /path/to/zarr-pyramid --memo-directory /tmp/
This is particularly helpful if you do not have write permissions in the input data directory.
As of version 0.5.0, .*.bfmemo
files are deleted at the end of conversion by default. We do not recommend keeping these files for normal
conversions, but if they are needed for troubleshooting then the --keep-memo-files
option can be used. Note that if a memo file did not
need to be created, --keep-memo-files
will still result in no .*.bfmemo
files at the end of conversion. This is particularly common
for small datasets that can be read very quickly.
By default, pyramid resolutions are generated using a very simple downsampling algorithm.
For some input data types, this may not be ideal. The --downsample-type
option can be used to specify an alternative algorithm.
Supported values are SIMPLE
(default), GAUSSIAN
, AREA
, LINEAR
, CUBIC
, and LANCZOS
, as declared in the Downsampling enum.
No additional downsampling algorithms are directly implemented in bioformats2raw; OpenCV is used to for any value of --downsample-type
other than the default.
If the minimum system requirements (see above) are not met, or the input data type is int8 or int32 (see #199),
then any value of --downsample-type
other than the default is expected to throw an exception.
Readers are listed here in the order in which they appear on the reader list.
Supports TIFF files that contain a pyramid, with one pyramid resolution per IFD. While this is different from standard pyramid OME-TIFF files,
any OME-XML stored in the first IFD's ImageDescription
tag will be used to set the number of channels, timepoints, and Z sections.
If no OME-XML is present, each IFD is assumed to represent one channel at a particular resolution; multiple IFDs at the same resolution
therefore indicates multiple channels.
Supports 3D HISTECH .mrxs data. Only the full-resolution image is read; bioformats2raw will generate a pyramid from
the full-resolution image, but will not read the original pyramid for this format. Datasets in this format include
a .mrxs file (which is a JPEG thumbnail), along with a similarly-named directory containing a Slidedat.ini
, Index.dat
,
and many Data*.dat
files. The .mrxs file alone does not contain anything apart from the thumbnail;
it is very important to include the entire corresponding directory when transferring these datasets.
The mirax.use_metadata_dimensions
reader option can be used change how XY dimensions are calculated.
By default, this option is true
, but setting it to false
may be helpful if the image size appears incorrect.
Supports BioTek Cytation 5 plates. Plates in this format consist of .tif files that follow a specific naming scheme; unlike most other plate formats, there are no metadata files that describe the whole plate. All files for a plate must be in the same folder as the selected bioformats2raw input file. File names must match one of a limited set of regular expressions:
([A-Z]{1,2})(\\d{1,2})_(-?\\d+)_(\\d+)_(\\d+)_([A-Za-z0-9 ,\\[\\]]+)_(\\d+).tif[f]?
- This corresponds to:
<well row letter><well column index>_<ignored index>_<ignored index>_<field index>_<channel name>_<ignored index>
- Examples:
A1_01_1_1_Phase Contrast_001.tif
(well A1, field 1,Phase Contrast
channel)P24_01_1_9_DAPI_002.tif
(well P24, field 9,DAPI
channel)A1_-2_1_1_Tsf[Stitched[Channel1 300,400]]_001.tif
(well A1, field 1,Tsf[Stitched[Channel1 300,400]]
channel)
- This corresponds to:
([A-Z]{1,2})(\\d{1,2})_(-?\\d+)(Z(\\d+))?_([A-Za-z0-9 ,\\[\\]]+)_(\\d+)_(\\d+)_(\\d+)?.tif[f]?
- This corresponds to:
<well row letter><well column index>_<field index><optional 'Z' and index>_<channel name>_<ignored index>_<t index>_<optional ignored index>
- Examples:
A1_1Z0_DAPI_1_001_.tif
(well A1, field 1, Z slice 0,DAPI
channel, timepoint 1)A1_1Z4_DAPI_1_003_.tif
(well A1, field 1, Z slice 4,DAPI
channel, timepoint 3)B2_1_Bright Field_1_001_02.tif
(well B2, field 1,Bright Field
channel, timepoint 1)
- This corresponds to:
([A-Z]{1,2})(\\d{1,2})_(-?\\d+)_.+\\[(.+)_([A-Za-z0-9 ,\\[\\]]+)\\]_(\\d+)_(\\d+)_([0-9-]+)?.tif[f]?
- This corresponds to:
<well row letter><well column index>_<field index>_<optional ignored data>[<ignored data>_<channel name>]_<ignored index>_<t index>_<optional ignored index>
- Example:
H10_1_Stitched[AandB_Phase Contrast]_1_001_-1.tif
(well H10, field 1,Phase Contrast
channel, timepoint 1)
- This corresponds to:
If the input file does not match the given regular expression, then the basic TIFF reader will be used to convert the single input file without looking for other .tif files. It is especially important to check the conversion output when working with BioTek plates for the first time or after any acquisition system updates, as there will not be an error in the logs if the file name does not match any of the above regular expressions.
Supports grouping multiple .nd2 files into a single HCS plate. To our knowledge, .nd2 files contain no HCS metadata or awareness that multiple files are part of the same acquisition. This reader relies entirely upon the file name structure to group .nd2 files in the same directory into a plate. Each file is assumed to represent one well, which may contain multiple fields. All files for a plate must be in the same folder as the selected bioformats2raw input file.
File names must match the regular expression (.*_?)Well([A-Z])(\\d{2})_Channel(.*)_Seq(\\d{4}).nd2
, e.g.
Plate000_WellB02_ChannelDAPI,CY5,CY3_Seq0000.nd2
. In this case, Plate000
is the plate name; only files with the
same plate name will be grouped together.
If the input file does not match the given regular expression, then the base ND2Reader
will be used to convert the
single input file without looking for other .nd2 files. It is especially important to check the conversion output when
working with ND2 plates for the first time or after any acquisition system updates, as there will not be an error in
the logs if the file name does not match ND2PlateReader
's expectations.
Supports Fluidigm Hyperion .mcd data. Both raw data and panorama images are read. The raw data typically has a small XY size, but most panorama images are large enough that a pyramid will be generated.
Note that the X
, Y
, and Z
channels in the raw data are calibration images. While these 3 channels appear first
in the .mcd file, MCDReader
moves them to the end of the channel list for a better viewing experience in OMERO.
The converter is distributed under the terms of the GPL license.
Please see LICENSE.txt
for further details.