Wolfram Workbench is the new state-of-the-art integrated
development environment (IDE) that incorporates Mathematica
webMathematica 2.3 features the 64-bit performance of
Mathematica 5.2, capitalizing on increased memory and CPU
availability across all major platforms.
Cluster Integration Package
The new Cluster Integration Package is a free add-on that enables
out-of-the-box operation of gridMathematica on Microsoft
Windows Compute Cluster Server 2003. It provides a direct interface to
cluster management systems from within gridMathematica and
allows compute kernels to be administered with a single one-line command.
GeometricalGeodesy provides a comprehensive framework for solving
fundamental geodesy and analytical cartography problems. It computes
coordinates in various data and coordinate systems, contains algorithms
for classical forward and inverse problems, and enables computations with
a wide variety of methods.
Global Optimization 5.2
Global Optimization adds enhanced power and reliability for solving
constrained and unconstrained nonlinear problems, including those with
non-real regions. It is now twice as fast for constrained problems and can
solve problems with over 20,000 variables.
KNITRO for Mathematica
KNITRO, the industry-standard software for large-scale nonlinear
optimization, is now available for Mathematica. KNITRO for
Mathematica solves general nonlinear constrained, linear
programming, quadratic programming, unconstrained, and least-squares
problems, as well as systems of nonlinear equations.
LensLab is an entry-level ray tracing package ideal for developing
equipment and experimental setups to determine optical component
specifications and system layouts.
machine learning framework 1.5
machine learning framework now includes new features for
multi-method data mining projects and improves existing methods and
cross-validation techniques. The new version supports the Windows,
Linux, and Mac OS X platforms.
MathCode C++ 1.3
MathCode C++ now supports Fourier
and InverseFourier as well as complex functions, complex
arrays, and a Complex data type. Using MathCode C++,
programmers can prototype their software in Mathematica and
automatically translate the code to stand-alone C++.
Expanded functionality makes it easy to develop applications based on
Fortran 90 code in Mathematica. The new version supports the
seamless integration of image processing code.
Mathematica Link for LabVIEW 2.1
Mathematica Link for LabVIEW allows users to control a LabVIEW
Virtual Instrument (VI) from within Mathematica or to call the
Mathematica kernel from within a LabVIEW VI, such as those used
for data acquisition and control. The new version supports LabVIEW
Polynomial Control Systems
Polynomial Control Systems works with the Control System
Professional application package to offer new tools for the modeling,
design of linear control systems described by polynomial matrix equations
or by matrices with rational polynomial elements.
Rayica gives scientists fine granularity and control for modeling
innovative optical instruments, including aspherical lenses, optical
fibers, resonating cavities, and custom surfaces. The package features
over 6800 predefined commercial optical parts, which can be used to define
new elements with their own symbolic equations.
Statistical Inference Package
Statistical Inference Package leverages Mathematica's
capabilities for numerics and symbolics, graphics, and programming to
provide a seamless environment for doing classical-likelihood-based