smile

Statistical Machine Intelligence & Learning Engine

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1129
Java

Smile

Join the chat at https://gitter.im/haifengl/smile
Maven Central

Smile (Statistical Machine Intelligence and Learning Engine)
is a fast and comprehensive machine learning, NLP, linear algebra,
graph, interpolation, and visualization system in Java and Scala.
With advanced data structures and algorithms, Smile delivers
state-of-art performance. Smile is well documented and please
check out the project website
for programming guides and more information.

Smile covers every aspect of machine learning, including classification,
regression, clustering, association rule mining, feature selection,
manifold learning, multidimensional scaling, genetic algorithms,
missing value imputation, efficient nearest neighbor search, etc.

Smile implements the following major machine learning algorithms:

  • Classification:
    Support Vector Machines, Decision Trees, AdaBoost, Gradient Boosting,
    Random Forest, Logistic Regression, Neural Networks, RBF Networks,
    Maximum Entropy Classifier, KNN, Naïve Bayesian,
    Fisher/Linear/Quadratic/Regularized Discriminant Analysis.

  • Regression:
    Support Vector Regression, Gaussian Process, Regression Trees,
    Gradient Boosting, Random Forest, RBF Networks, OLS, LASSO, ElasticNet,
    Ridge Regression.

  • Feature Selection:
    Genetic Algorithm based Feature Selection, Ensemble Learning based Feature
    Selection, TreeSHAP, Signal Noise ratio, Sum Squares ratio.

  • Clustering:
    BIRCH, CLARANS, DBSCAN, DENCLUE, Deterministic Annealing, K-Means,
    X-Means, G-Means, Neural Gas, Growing Neural Gas, Hierarchical
    Clustering, Sequential Information Bottleneck, Self-Organizing Maps,
    Spectral Clustering, Minimum Entropy Clustering.

  • Association Rule & Frequent Itemset Mining:
    FP-growth mining algorithm.

  • Manifold Learning:
    IsoMap, LLE, Laplacian Eigenmap, t-SNE, UMAP, PCA, Kernel PCA,
    Probabilistic PCA, GHA, Random Projection, ICA.

  • Multi-Dimensional Scaling:
    Classical MDS, Isotonic MDS, Sammon Mapping.

  • Nearest Neighbor Search:
    BK-Tree, Cover Tree, KD-Tree, SimHash, LSH.

  • Sequence Learning:
    Hidden Markov Model, Conditional Random Field.

  • Natural Language Processing:
    Sentence Splitter and Tokenizer, Bigram Statistical Test, Phrase Extractor,
    Keyword Extractor, Stemmer, POS Tagging, Relevance Ranking

You can use the libraries through Maven central repository by adding the
following to your project pom.xml file.

    <dependency>
      <groupId>com.github.haifengl</groupId>
      <artifactId>smile-core</artifactId>
      <version>3.1.1</version>
    </dependency>

For NLP, use the artifactId smile-nlp.

For Scala API, please use

    libraryDependencies += "com.github.haifengl" %% "smile-scala" % "3.1.1"

For Kotlin API, add the below into the dependencies section
of Gradle build script.

    implementation("com.github.haifengl:smile-kotlin:3.1.1")

For Clojure API, add the following dependency to your project or build file:

    [org.clojars.haifengl/smile "3.1.1"]

Some algorithms rely on BLAS and LAPACK (e.g. manifold learning,
some clustering algorithms, Gaussian Process regression, MLP, etc.).
To use these algorithms, you should include OpenBLAS for optimized matrix
computation:

    libraryDependencies ++= Seq(
      "org.bytedeco" % "javacpp"   % "1.5.8"        classifier "macosx-x86_64" classifier "windows-x86_64" classifier "linux-x86_64" classifier "linux-arm64" classifier "linux-ppc64le" classifier "android-arm64" classifier "ios-arm64",
      "org.bytedeco" % "openblas"  % "0.3.21-1.5.8" classifier "macosx-x86_64" classifier "windows-x86_64" classifier "linux-x86_64" classifier "linux-arm64" classifier "linux-ppc64le" classifier "android-arm64" classifier "ios-arm64",
      "org.bytedeco" % "arpack-ng" % "3.8.0-1.5.8"  classifier "macosx-x86_64" classifier "windows-x86_64" classifier "linux-x86_64" classifier "linux-arm64" classifier "linux-ppc64le"
    )

In this example, we include all supported 64-bit platforms and filter out
32-bit platforms. The user should include only the needed platforms to save
spaces.

If you prefer other BLAS implementations, you can use any library found on
the “java.library.path” or on the class path, by specifying it with the
“org.bytedeco.openblas.load” system property. For example, to use the BLAS
library from the Accelerate framework on Mac OS X, we can pass options such
as -Dorg.bytedeco.openblas.load=blas.

If you have a default installation of MKL or simply include the following
modules that include the full version of MKL binaries, Smile will automatically
switch to MKL.

libraryDependencies ++= {
  val version = "2024.0-1.5.10"
  Seq(
    "org.bytedeco" % "mkl-platform"        % version,
    "org.bytedeco" % "mkl-platform-redist" % version
  )
}

Shell

Smile comes with interactive shells for Java, Scala and Kotlin.
Download pre-packaged Smile from the
releases page.
In the home directory of Smile, type

    ./bin/smile

to enter the Scala shell. You can run any valid Scala expressions
in the shell. In the simplest case, you can use it as a calculator.
Besides, all high-level Smile operators are predefined in the shell.
By default, the shell uses up to 75% memory. If you need more memory
to handle large data, use the option -J-Xmx or -XX:MaxRAMPercentage.
For example,

    ./bin/smile -J-Xmx30G

You can also modify the configuration file ./conf/smile.ini for the
memory and other JVM settings.

To use Java’s JShell, type

    ./bin/jshell.sh

which has Smile’s jars in the classpath. Similarly, run

    ./bin/kotlin.sh

to enter Kotlin REPL.

Model Serialization

Most models support the Java Serializable interface (all classifiers
do support Serializable interface) so that you can use them in Spark.
Protostuff
is a nice alternative that supports forward-backward compatibility
(schema evolution) and validation. Beyond XML, Protostuff supports many
other formats such as JSON, YAML, protobuf, etc.

Visualization

Smile provides a Swing-based data visualization library SmilePlot,
which provides scatter plot, line plot, staircase plot, bar plot,
box plot, histogram, 3D histogram, dendrogram, heatmap, hexmap,
QQ plot, contour plot, surface, and wireframe.

To use SmilePlot, add the following to dependencies

    <dependency>
      <groupId>com.github.haifengl</groupId>
      <artifactId>smile-plot</artifactId>
      <version>3.1.1</version>
    </dependency>

Smile also support data visualization in declarative approach.
With smile.plot.vega package, we can create a specification
that describes visualizations as mappings from data to properties
of graphical marks (e.g., points or bars). The specification is
based on Vega-Lite. The
Vega-Lite compiler automatically produces visualization components
including axes, legends, and scales. It then determines properties
of these components based on a set of carefully designed rules.

Gallery

Kernel PCA

Kernel PCA

IsoMap

IsoMap

MDS

Multi-Dimensional Scaling

SOM

SOM

Neural Network

Neural Network

SVM

SVM

Agglomerative Clustering

Agglomerative Clustering

X-Means

X-Means

DBSCAN

DBSCAN

Neural Gas

Neural Gas

Wavelet

Wavelet

Mixture

Exponential Family Mixture