Eigenvalues and Eigenvectors calculation
in just one line of your source code
Eigenvalues and Eigenvectors
calculation is just one aspect of matrix algebra that is featured
in the new Advanced edition of Matrix ActiveX
Component (MaXC).
In addition our new .NET Matrix Library provides classes for
the .NET Framework. (Click here
to learn more about NML).
Supported operations include:
- Eigen Problems
- Matrix Decompositions
- LU Decomposition
- Cholesky Decomposition
- QR Decomposition *
- Singular Value Decomposition (SVD)
*
- Basic Matrix Operations
- Addition
- Subtraction
- Scalar Multiplication
- Normalize
- Transpose
- Common Matrix Operations
- Multiplication
- Inversion
- Determinant
- Simultaneous Equation Solving
- Using Matrix Inversion
- Using Gauss Elimination
(*)
Available in the Advanced editions
The Matrix ActiveX Component (MaXC) delivers all the speed,
numerical stability, robustness and scalability you could ask for,
significantly reducing development time and allowing you to focus
on the actual goals of your application. Without compromising speed,
MaXC uses an object-oriented approach to matrix math computation,
providing you with the Matrix and CMatrix objects
containing all the Properties and Methods that you'll need when
deploying your numerical exploration.
It can be used from within any programming language that supports
COM objects, such as Visual Basic, .NET Basic, Vbscript, ASP,
JavaScript,
C++, C#, Delphi and Excel's VBA.
Download a Free
Trial Now!
Use it in your source code and see how the Matrix ActiveX
Component simplifies your coding tasks.
Whether you are developing a statistical package, seeking fast
3D graphics transformations, looking to solve simultaneous equations,
multivariate linear regressions, eigenvalue and eigenvector calculation
problems, the Matrix ActiveX Component can do all of this
and more!
Finally, you can discover for yourself just how useful and versatile
the Matrix ActiveX Component is in all types of matrix math
calculations, as well as in its ability to calculate eigenvalues
and eigenvectors.
Object-oriented linear algebra for the
.NET Platform
If you program in C#, VB.NET, or managed C++
then the Bluebit .NET Matrix Library is the right
tool for you. It provides classes for object-oriented linear algebra
in the .NET platform.
It can be used to solve systems of simultaneous linear
equations, least-squares solutions of
linear systems of equations, eigenvalues and
eigenvectors problems, and singular value
problems. Also provided are the associated matrix factorizations
such as Eigen, LQ, LU,
Cholesky, QR, SVD.
The above functionality is present for both real
and complex matrices. Two analogous sets of classes
are provided for real and complex matrices, vectors and factorizations.
While exposing an easy to use and powerful interface, the
Bluebit .NET Matrix Library does not sacrifice
any performance. Highly optimized BLAS and the
standard LAPACK routines are used within the library
and provide fast execution and accurate calculations.
Download a 60 day
free trial of NML Now!
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