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From last couple of days I am looking for some good Machine Learning (ML) library and to my surprise I found quite a lot. Initially, I was interested in only libraries which have the C/C++ support but then I am expanding my wishlist to include any good library which can have good feature set and and can provide good data mining in longer run (It may be a bit difficult to learn initially but should have things which can make it worth of learning).

For this I want to evaluate all of the available good ML libraries on these parameters:

  1. Various data mining algorithms and features it support

  2. Community support (if there are more users of this, definitely we will get more help while working)

  3. how stable it is

  4. Efficiency with large data set

  5. Ease of learning / Ease of use / Ease of operation

  6. languages it supports (C, C++, Java,P ython)

  7. open source/closed source

I request all of you to please come up with your suggestions(who has worked or have experience working with any of the library) so that we can have a good comprehensive discussion for any such sort of questions.

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closed as not constructive by casperOne Jan 18 '12 at 19:39

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance.If this question can be reworded to fit the rules in the help center, please edit the question.

    
If you say ML instead of MatLab it might seem that you are talking about the ML Programming language. It is not much effort to type 4 extra characters to avoid confusions. – fortran Jan 17 '12 at 14:15
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@fortran: I think "ML" here actually means "machine learning", and not MATLAB. But I agree, the OP should fix the title because ML is too ambiguous – Steve Lianoglou Jan 17 '12 at 17:04
    
I actually took the liberty to fix myself ;-) – Steve Lianoglou Jan 17 '12 at 17:05
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@fortran, Just corrected my edit mistake.I did mean machine learning and not MATLAB.Please provide your valuable feedback. – pjain Jan 17 '12 at 18:14
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mloss.org is probably the most extensive list, including user reviews, of open-source machine learning software. – Anony-Mousse Jan 18 '12 at 6:44

Rather than recommend a specific toolbox, one place you could look is on the Machine Learning Open Source Software page. Here you can:

Sort by

  • Last Update
  • Publication Date
  • Project Title
  • Rating
  • Number of Views
  • Number of Downloads

Filter by

  • Author
  • Submitter
  • Tag
  • License
  • Programming Language
  • Operating System
  • Data Format
  • Published in JMLR

This should be able to answer your questions 1), 2) and 6), and 7) is yes by default (although there may be different flavours of open source license).

Questions 3), 4) and 5) are trickier. There is a rating scheme on mloss, but it's not broken down by those criteria (stability, efficiency, ease of use). At some point you will have to perform some of your own experimentation - this will certainly help from the ease of use perspective. For efficiency, in some cases the toolboxes will be backed up by journal articles, in which case they have passed a stringent peer review process, so if you can locate the relevant journal article I would expect there to be a discussion (although maybe not completely impartial!) about efficiency. Finally stability, well I suppose you have to place some trust in the community that the toolboxes with the highest ratings and the most downloads are also the most stable, although again you may only discover this through your own experimentation.

Other sources of information would be discussion forums and general online resources, you could try one of the following:

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Here are some suggestions:

All library are written in C(++).

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1  
The MLPACK library also has many machine algorithms, written in C++ – mtall Jan 22 '14 at 8:07
    
@mtall The MLPACK lib doesn't seem to have svm listed in their doxgen. Any idea why they failed to provide an implementation for it? Or is it just not showing up in the docs while actually being in the package? – h9uest Dec 26 '14 at 14:00

Seriously, this comparison is so complex, the result will be arbitrary. This is like asking "What is the best car?"

  • What task to use it for
  • What data to use
  • How much data
  • Scientific or commercial use

When you go into details, you will be surprised about the limitations. For example, one toolkit will do "k-means", but it is in fact only an approximate k-means, Euclidean distance only, on double-valued, low-dimensional, in-memory data only. Another toolkit will come with 10 variations of k-means, support arbitrary distance functions (even though k-means is mostly sensible for Minkowski norms), support on-disk operation, but will be a lot slower on your tiny test data set, because it supports all these options. In GNU R for example, you have at least 3 variants of k-means, but AFAICT they are all constrained to Euclidean distance. They'll probably be very fast, as they aren't implemented in R, but in low-level C; which makes it in fact even harder to extend them (despite the general extensibility of GNU R).

This is very subjective. There is no answer. The best you can do, is assign scores to each point individually.

If you still want to do this, make sure to add this point to your list: extensibility. Speed is one thing, but if you want to apply it to real data, you might need to customize your distance function, start settings, iterations, ...

Extensibility also makes them more useful for research. Benchmarking a low-level C implementation such as GNU R k-means against a higher-level implementation of another algorithm is not fair; you are benchmarking the implementation more than the algorithm. So for use in science, it should try to have as much overlap across algorithms as possible. See: k-means in R is probably already tons faster just at computing the Euclidean distance itself than any JavaScript application will ever be.

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I know we can't have one single good answer for this question.But I am just trying to compare various features and users' own expereince on the usage of particular tool/library.This will help in taking a informed decision. – pjain Jan 18 '12 at 5:44
    
An earlier reply already gave you the link to mloss.org Essentially, this is a website dedicated to answering this question. Which, given some 3000-4000 entries, goes way beyond the scope of the questions here IMHO. – Anony-Mousse Jan 18 '12 at 6:43

You could look into Cognitive Architectures, which are designed to mimic the way the human brain functions. In the past I have used an architecture called ACT-R, which is an interpretive language written in LISP. The syntax is very similar to LISP and it is easy to pick up on, although I might have needed a license to use the software.

Other common cognitive architectures include Soar, Clarion, and EPIC, all of which try to emulate the way the human brain processes information. Using these architectures is in some respects very different from programming a functional program, but you get used to it quickly, and they can do some amazing things.

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