This package should nicely integrate with your existing python code, thus makes it easy to participate in the SISEC MUS tasks. The core of this package is calling a user-provided function that separates the mixtures from the DSD into several estimated target sources.

Providing a compatible function

The core of this package consists of calling a user-provided function which separates the mixtures from the dsdtools into estimated target sources.

  • The function will take an dsdtools Track object which can be used from inside your algorithm.
  • Participants can access
  •, representing the stereo mixture as an np.ndarray of shape=(nun_sampl, 2)
  • Track.rate, the sample rate
  • Track.path, the absolute path of the mixture which might be handy to process with external applications, so that participants don’t need to write out temporary wav files.
  • The function needs to return a python Dict which consists of target name (key) and the estimated target as audio arrays with same shape as the mixture (value).
  • It is the users choice which target sources they want to provide for a given mixture. Supported targets are ['vocals', 'accompaniment', 'drums', 'bass', 'other'].
  • Please make sure that the returned estimates do have the same sample rate as the mixture track.

Here is an example for such a function separating the mixture into a vocals and accompaniment track.

def my_function(track):

    # get the audio mixture as numpy array shape=(nun_sampl, 2)

    # compute voc_array, acc_array
    # ...

    return {
        'vocals': voc_array,
        'accompaniment': acc_array

Create estimates for SiSEC evaluation

Setting up dsdtools

Simply import the dsdtools package in your main python function:

import dsdtools

dsd = dsdtools.DB(

The root_dir is the path to the dsdtools dataset folder. Instead of root_dir it can also be set system-wide. Just export DSD_PATH=/path/to/dsdtools inside your terminal environment.

Test if your separation function generates valid output

Before you run the full DSD100, which might take very long, participants can test their separation function by running:


This test makes sure the user provided output is compatible to the dsdtools framework. The function returns True if the test succeeds.

Processing the full DSD100

To process all 100 DSD tracks and saves the results to the estimates_dir:, estimates_dir="path/to/estimates")

Processing training and testing subsets separately

Algorithms which make use of machine learning techniques can use the training subset and then apply the algorithm on the test data:, subsets="Dev"), subsets="Test")

If you want to exclude tracks from the training you can specify track ids as dsdtools.DB(..., valid_ids=[1, 2] object. Those tracks are then not included in Dev but are returned for subsets="Valid".

Processing single or multiple DSD100 tracks, ids=30), ids=[1, 2, 3]), ids=range(90, 99))

Note, that the provided list of ids can be overridden if the user sets a terminal environment variable DSD_ID=1.

Use multiple cores

Python Multiprocessing

To speed up the processing, run can make use of multiple CPUs:, parallel=True, cpus=4)

Note: We use the python builtin multiprocessing package, which sometimes is unable to parallelize the user provided function to PicklingError.

GNU Parallel

GNU parallel is a shell tool for executing jobs in parallel using one or more computers. A job can be a single command or a small script that has to be run for each of the lines in the input. The typical input is a list of files, a list of hosts, a list of users, a list of URLs, or a list of tables. A job can also be a command that reads from a pipe. GNU parallel can then split the input and pipe it into commands in parallel.

By running only one id in each python process the dsdtools set can easily be processed with GNU parallel using multiple CPUs without any further modifications to your code:

parallel --bar 'DSD_ID={0} python' ::: {1..100}
Compute the bss_eval measures

The official SISEC evaluation relies on MATLAB because currently there does not exist a bss_eval implementation for python which produces indentical results. Therefore please run dsd100_eval_only.m from the DSD100 Matlab scripts after you have processed and saved your estimates with dsdtoolspy.

Evaluation in python


Evaluation in python is not supported yet