What does the “OSS” in MLOSS mean?
Posted by Mark Reid on September 1, 2013
I was recently asked to become an Action Editor for the Machine Learning and Open Source Software (MLOSS) track of Journal of Machine Learning Research. Of course, I gladly accepted since the aim of the JMLR MLOSS track (as well as the broader MLOSS project) -- to encourage the creation and use of open source software within machine learning -- is well aligned with my own interests and attitude towards scientific software.
Shortly after I joined, one of the other editors raised a question about how we are to interpret an item in the review criteria that states that reviewers should consider the "freedom of the code (lack of dependence on proprietary software)" when assessing submissions. What followed was an engaging email discussion amongst the Action Editors about the how to clarify our position.
After some discussion (summarised below), we settled on the following guideline which tries to ensure MLOSS projects are as open as possible while recognising the fact that MATLAB, although "closed", is nonetheless widely used within the machine learning community and has an open "work-alike" in the form of GNU Octave:
Dependency on Closed Source Software
We strongly encourage submissions that do not depend on closed source and proprietary software. Exceptions can be made for software that is widely used in a relevant part of the machine learning community and accessible to most active researchers; this should be clearly justified in the submission.
The most common case here is the question whether we will accept software written for Matlab. Given its wide use in the community, there is no strict reject policy for MATLAB submissions, but we strongly encourage submissions to strive for compatibility with Octave unless absolutely impossible.
There were a number of interesting arguments raised during the discussion, so I offered to write them up in this post for posterity and to solicit feedback from the machine learning community at large.
Reviewing and decision making
A couple of arguments were put forward in favour of a strict "no proprietary dependencies" policy.
Firstly, allowing proprietary dependencies may limit our ability to find reviewers for submissions -- an already difficult job. Secondly, stricter policies have the benefit of being unambiguous, which would avoid future discussions about the acceptability of future submission.
Promoting open ports
An argument made in favour of accepting projects with proprietary dependencies was that doing so may actually increase the chances of its code being forked to produce a version with no such dependencies.
Where do we draw the line?
Some of us had concerns about what exactly constitutes a proprietary dependency and came up with a number of examples that possibly fall into a grey area.
For example, how do operating systems fit into the picture? What if the software in question only compiles on Windows or OS X? These are both widely used but proprietary. Should we ensure MLOSS projects also work on Linux?
Taking a step up the development chain, what if the code base is most easily built using proprietary development tools such as Visual Studio or XCode? What if libraries such as MATLAB's Statistics Toolbox or Intel's MKL library are needed for performance reasons?
Things get even more subtle when we note that certain data formats (e.g., for medical imaging) are proprietary. Should such software be excluded even though the algorithms might work on other data?
These sorts of considerations suggested that a very strict policy may be difficult to enforce in practice.
What is our focus?
It is pretty clear what position Richard Stallman or other fierce free software advocates would take on the above questions: reject all of them! It is not clear that such an extreme position would necessarily suit the goals of the MLOSS track of JMLR.
Put another way, is the focus of MLOSS the "ML" or the "OSS"? The consensus seemed to be that we want to promote open source software to benefit machine learning, not the other way around.
Looking At The Data
Towards the end of the discussion, I made the argument that if we cannot be coherent we should at least be consistent and presented some data on all the accepted MLOSS submissions. The list below shows the breakdown of languages used by the 50 projects that have been accepted to the JMLR track to date. I'll note that some projects use and/or target multiple languages and that, because I only spent half an hour surveying the projects, I may have inadvertently misrepresented some (if I've done so, let me know).
C++: 15; Java: 13; MATLAB:11; Octave: 10; Python:9; C: 5; R: 4.
From this we can see that MATLAB is fairly well-represented amongst the accepted MLOSS projects. I took a closer look and found that of the 11 projects that are written in (or provide bindings for) MATLAB, all but one of them provide support for GNU Octave compatibility as well.
I think the position we've adopted is realistic, consistent, and suitably aspirational. We want to encourage and promote projects that strive for openness and the positive effects it enables (e.g., reproducibility and reuse) but do not want to strictly rule out submissions that require a widely used, proprietary platform such as MATLAB.
Of course, a project like MLOSS is only as strong as the community it serves so we are keen to get feedback about this decision from people who use and create machine learning software so feel free to leave a comment or contact one of us by email.
Note: This is a cross-post from Mark's blog at Inductio ex Machina.
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