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What's New?
Maple 6 delivers best-of-breed symbolics and the most powerful numerics in a tightly integrated computational environment. It makes technical analysis easier, faster, and more effective. Maple 6 is the result of over 1000 person-years of advanced research and development. Outstanding new features let you define, solve, modify, optimize, and explore mathematics or data in any technical project, including modeling and simulation, theoretical analysis, engineering design, and scientific application development. No other package of it's kind can compare with Maple 6's performance, accuracy, and value.
Numerics
Waterloo Maple has combined forces with the Numerical Algorithms Group (NAG) to tightly integrate their high-speed, flexible numeric solvers in a symbolic environment. Maple 6 gives you all the tools you need to solve your problems from beginning to end in one single computational environment. Maple 6's new computational linear algebra package supports the NAG solvers with over 100 functions.
Maple 6's floating-point computations are now IEEE 754 standards compliant, providing you with unsurpassed flexibility and confidence in your computations.
Connectivity and Interoperability
Maple 6 includes a powerful add-in to Microsoft¬ Excel 2000. With this link, you can perform symbolic, numerical, and graphical analysis inside a familiar Excel spreadsheet, accessing all of Maple's power and functionality. You can also incorporate external routines into Maple 6 by using linkable libraries that allow you to call your own legacy code and use it in your new Maple 6 session. You can also export your Maple 6 worksheets under RTF format to integrate your Maple 6 work with all popular word processors, including Microsoft Word.
Programming Functionality
Maple products have always provided a wide range of features for users who wish to take full advantage of Maple's powerful programming language to develop applications. Maple 6 adds major new functionality to the programming tools to accommodate a wider range of program-ming styles, provide greater programming flexibility and enable highly advanced programming techniques that are impossible with other languages or systems. |
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