Mathematica incorporates the latest algorithms—some original to Wolfram Research—for evaluating mathematical constants to any number of digits of precision. For basic ...

Combining methods from set theory, topology, and discrete mathematics, mathematical morphology provides a powerful approach to processing images and other discrete data. ...

Continuing to build on Mathematica's unified architecture, Version 6.0 deepens and broadens Mathematica's ability to import and export data in a large number of different ...

In Mathematica, a palette is just a notebook with a collection of controls such as buttons. A uniquely powerful consequence of Mathematica's unified design is that a symbolic ...

Mathematica has sophisticated built-in automatic numerical precision and accuracy control. But for special-purpose optimization of numerical computations, or for studying ...

Mathematica supports a large collection of relational operator characters, each of which can also be used as an element of Mathematica syntax, representing a formal operator ...

Mathematica gives convenient machine-independent programmatic access to a broad range of information about your computer system.

Mathematica provides detailed symbolic control over all aspects of text layout. Placing separate blocks or paragraphs in separate cells also immediately allows Mathematica's ...

Mathematica's symbolic architecture makes it unprecedentedly easy to create and manipulate sophisticated layouts for user interfaces—both as static structures and with ...

Mathematica's core tree-oriented symbolic language makes it uniquely suited to working with XML. Mathematica can not only import—from files or the web—arbitrary XML with any ...