Mathematica supports using joysticks, gamepads, 3D mice, and all other controller devices that follow the HID specification. In fact, in many cases, there is zero setup ...
Mathematica provides real-time view control for all 3D graphics, wherever they may appear in a document. Mathematica's advanced human interface device system also ...
For many applications, high-level constructs like Manipulate and TabView will immediately give you the dynamic interactivity you need. Mathematica also allows you to create ...
Mathematica's unified symbolic architecture makes it straightforward to insert dynamic behavior anywhere in any graphic. Single functions—readily generated ...
Building on Mathematica's integrated symbolic architecture, it becomes easy to introduce powerful dynamic behavior into any aspect of visualization. Single Mathematica ...
Mathematica 6.0 defined a major new paradigm for computing, centered around the concept of the symbolic dynamic interface. Built on Mathematica's unique symbolic ...
Mathematica 6 introduced the revolutionary idea of symbolic dynamic interactivity. Mathematica 7 makes use of this idea throughout the system, and adds a number of additional ...
Mathematica's unified computation and dynamic document architecture makes possible a new level of interactive presentation—notably allowing finished "slides" on which full ...
Mathematica's dynamic interactivity system makes it easy to view and annotate any object in a dynamic way. Building on Mathematica's symbolic programming architecture, ...
Version 6.0 greatly extended Mathematica's powerful symbolic document paradigm, integrating support for editable symbolic graphics, structure-programmable table layouts, ...