| |
| Education
/ Mathematics
|
|
|
| KonstSolver 1.086 |
|
KonstSolver is a high-performance vector and matrix library for .NET (C#, C++, and VB), thread based, 100% managed code. A parallel LU algorithm for solving dense systems of linear equations of the form Ax = b provides amazing speedup on multicore and multiprocessor computers. KonstSolver allows the following parallel matrix/vector operations: add, subtract, multiply vector and/or matrix, divide by constant, etc.
Many modern PCs and servers have multicore or multiprocessor hardware available, but sequential algorithms cannot be run in parallel without using special techniques. It is necessary to divide a code into subtasks and run them on different threads.
KonstSolver is an easy to use, intuitive, and predictable library that allows use of matrix/vector/constant operators +, -, *, / in the standard way. Such algorithms are parallel and optimized for .NET platforms.
Amdahl's Law works! This means that vector and matrix operations can be parallelized with very high speedup. Even such low-granular tasks as LU decomposition for solving dense linear equations can be done effectively. KonstSolver will make your software faster, more reliable, and more precise. The library is extensible and allows you to build custom classes over existing infrastructure.
|
|
|
| KonstSolver related software |
| Title / Version / Description |
Size |
License |
Price |
| .NET Matrix Library 2.5.5000.811 | 3.9 MB | Shareware | $49 |  The Bluebit .NET Matrix Library 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... |
|
| Kalkulator 2.41 | 956.0 KB | Shareware | $40 |  The Mother of all Calculators, a Swiss Army knife for scientists and engineers. Perhaps the most capable scientific/engineering calculator for Windows.
On one hand, this is a calculator: evaluates expressions with more than 100 functions (trig/inverse, log/exp, statisical distributions, Euler, conditional, user-defined. Expressions are entered in the customary algebraic notation, and only then evaluated. After computing the value, an... |
|
| Matrix TCL 2.11 | 41.9 KB | Shareware | $24 |  This is a C++ template class library to perform matrix calculations with ease and efficiency in your program. It supports most of the matrix calculations that you may need to do in your C++ programs. With this class you can do matrix calculations just like other built-in data types in your program. It supports arithmetic operations, sub-matrix operations, inversion, various matrix decompositions, solution of simultaneous linear equations,... |
|
| OpenDDPT 0.3.2 | 2.2 MB | Freeware | | | The physic of the real world can be formulated into mathematical form using differential equations. Differential equation and systems of differential equations are the natural language trough we can describe any real devices like electronic circuit, automatic controls, elettro-magnetic wave emission or any other engineering problems. The purpose of OpenDDPT project is to build a software that can aids people to build automatically these... |
|
| ESBPCS-Stats for VCL 4.3.1 | 9.8 MB | Shareware | $79 |  ESBPCS-Stats is a subset of ESBPCS (ESB Professional Computation Suite) containing Components and Routines for Statistical Analysis and Matrix/Vector Manipulation in Borland Delphi and C++ Builder.
This subset is ideal for people who just want the Stats and/or Matrix/Vector parts of ESBPCS, though you can upgrade to the full version at any time. Also includes Components and routines covering Probability Distributions, Linear Regression,... |
|
| UltimaCalc Professional 3.0.647 | 3.3 MB | Shareware | $49.95 |  UltimaCalc is a collection of mathematical tools wrapped up in one program, for use by scientists, engineers and students. The main window is a calculator that accepts mathematical expressions as plain text and evaluates them to 38 digit precision.
UltimaCalc can remain always ready for use. The use of text input means that this window can be small enough to remain open at all times without blocking the view of other windows. This window can... |
|
| MultiCore AntiVirus & AntiSpyware 2.0000.00014 | 15.5 MB | Shareware | $49.45 |  A new unique MultiCore AntiVirus & AntiSpyware product reliably defends PC against computer malware and on-line threats at unsurpassed, highest security levels.
A MultiCore AntiVirus & AntiSpyware product effectively prevents, stops, and eliminates computer viruses and spyware. The revolutionary underlying software technology enables multiple antivirus and antispyware scan-engines running on the same PC. A MultiCore AntiVirus &... |
|
| MatheHP 2.41 | 734.8 KB | Shareware | 10EUR |  Program MatheHP contains calculators for integer, rational, real and complex numbers with high precision (up to 144 digits with point numbers, 616 with integer numbers). You can also solve algebraic equations with up to 8 th degree and linear systems of equations. For the quick computation of prime numbers a prime number generator is available. Moreover prime factors and divisors can be calculated. |
|
| OptiVec for Delphi 4 4.4.2 | 2.2 MB | Shareware | $249 |  OptiVec contains more than 3500 hand-optimized, Assembler-written functions for all floating-point and integer data types from the following fields:
1. Vectorized form of arithmetic operators and math functions.
2. Matrix operations, e.g.: multiplication, inversion, LU decomposition, singular value decomposition, eigenvalues.
3. Fast Fourier Transform techniques for efficient convolutions, correlation analyses, spectral filtering, etc.,... |
|
| OptiVec for Delphi 5 4.4.2 | 2.2 MB | Shareware | $249 |  OptiVec contains more than 3500 hand-optimized, Assembler-written functions for all floating-point and integer data types from the following fields:
1. Vectorized form of arithmetic operators and math functions.
2. Matrix operations, e.g.: multiplication, inversion, LU decomposition, singular value decomposition, eigenvalues.
3. Fast Fourier Transform techniques for efficient convolutions, correlation analyses, spectral filtering, etc.,... |
|
|
|
|
| |
