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Delphi-Related Files| Found: 204. Displaying: 1-10 |  |  |
 | RichView (Delphi version) 10.0 |  | RichView is a suite of native Delphi/C++Builder components for displaying, editing and printing hypertext documents.
Components support various character attributes (fonts, subscripts/superscripts, colored text background, custom drawn). Documents can contain tables, pictures, images from imagelists, any Delphi controls. Left, right, center or justify alignments of paragraphs, custom margins and indents, bullets and numbering, Unicode, background images, print preview, export to HTML, RTF import and export, live spell, data-aware versions and more...
RichViewActions is a set of components and actions for creating user interface for word processor applications (free addon).
ScaleRichView is a set of components for WYSIWYG editing (shareware addon)
This installation contains files for Delphi 3-2007 (for Win32). |
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  | OptiVec for Delphi 4 5.2 | | 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., both one- and two-dimensional.
4. Curve fitting for a wide range of model functions from simple linear regression to non-linear models with multiple data sets.
5. Statistics.
6. Analysis (derivatives, integrals, extrema, interpolation).
7. Graphical representation of data in Cartesian coordinates.
8. Complex number math, both in cartesian and polar format.
The vectorized implementation in Assembler makes OptiVec functions, on the average, 2-3 times faster than compiled source code of the same functionality. In many instances, the numerical accuracy is improved as well.
This version is for Borland Delphi 4. |
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 | OptiVec for Delphi 5 5.2 | | 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., both one- and two-dimensional.
4. Curve fitting for a wide range of model functions from simple linear regression to non-linear models with multiple data sets.
5. Statistics.
6. Analysis (derivatives, integrals, extrema, interpolation).
7. Graphical representation of data in Cartesian coordinates.
8. Complex number math, both in cartesian and polar format.
The vectorized implementation in Assembler makes OptiVec functions, on the average, 2-3 times faster than compiled source code of the same functionality. In many instances, the numerical accuracy is improved as well.
This version is for Borland Delphi 5. |
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 | CMATH for Delphi 4 5.2 | | CMATH is a comprehensive library for complex-number arithmetics and mathematics, both in cartesian and polar format (single, double, and extended precision). The implementation in Assembly language ensures maximum speed, accuracy, and safety, far superior to the unit Complex coming with Delphi.
As in the C version of CMATH, all functions of the Pascal/Delphi version have a type-specific prefix, as in, cf_sin, cd_exp, or pf_sqrt. They are optimized for Pentium II-IV, but will also run on Athlon and on computers down to 486DX. For Borland Delphi 4. |
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 | CMATH for Delphi 6 5.2 | | CMATH is a comprehensive library for complex-number arithmetics and mathematics, both in cartesian and polar format (single, double, and extended precision). The implementation in Assembly language ensures maximum speed, accuracy, and safety, far superior to the unit Complex coming with Delphi.
As in the C version of CMATH, all functions of the Pascal/Delphi version have a type-specific prefix, as in, cf_sin, cd_exp, or pf_sqrt. They are optimized for Pentium II-IV, but will also run on Athlon and on computers down to 486DX. This version is for Borland Delphi 6. |
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 | OptiVec for Delphi 6 5.2 | | 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., both one- and two-dimensional.
4. Curve fitting for a wide range of model functions from simple linear regression to non-linear models with multiple data sets.
5. Statistics.
6. Analysis (derivatives, integrals, extrema, interpolation).
7. Graphical representation of data in Cartesian coordinates.
8. Complex number math, both in cartesian and polar format.
The vectorized implementation in Assembler makes OptiVec functions, on the average, 2-3 times faster than compiled source code of the same functionality. In many instances, the numerical accuracy is improved as well.
This version is for Borland Delphi 6. |
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 | CMATH for Delphi 5 5.2 | | CMATH is a comprehensive library for complex-number arithmetics and mathematics, both in cartesian and polar format (single, double, and extended precision). The implementation in Assembly language ensures maximum speed, accuracy, and safety, far superior to the unit Complex coming with Delphi.
As in the C version of CMATH, all functions of the Pascal/Delphi version have a type-specific prefix, as in, cf_sin, cd_exp, or pf_sqrt. They are optimized for Pentium II-IV, but will also run on Athlon and on computers down to 486DX. This version is for Borland Delphi 5. |
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 | OptiVec for Delphi 7 5.2 | | 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., both one- and two-dimensional.
4. Curve fitting for a wide range of model functions from simple linear regression to non-linear models with multiple data sets.
5. Statistics.
6. Analysis (derivatives, integrals, extrema, interpolation).
7. Graphical representation of data in Cartesian coordinates.
8. Complex number math, both in cartesian and polar format.
The vectorized implementation in Assembler makes OptiVec functions, on the average, 2-3 times faster than compiled source code of the same functionality. In many instances, the numerical accuracy is improved as well.
This version is for Borland Delphi 7. |
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 | CMATH for Delphi 7 5.2 | | CMATH is a comprehensive library for complex-number arithmetics and mathematics, both in cartesian and polar format (single, double, and extended precision). The implementation in Assembly language ensures maximum speed, accuracy, and safety, far superior to the unit Complex coming with Delphi.
As in the C version of CMATH, all functions of the Pascal/Delphi version have a type-specific prefix, as in, cf_sin, cd_exp, or pf_sqrt. They are optimized for Pentium II-IV, but will run also on Athlon and on computers down to 486DX. This version is for Borland Delphi 7. |
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 | OptiVec for Delphi 2006 5.2 | | 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., both one- and two-dimensional.
4. Curve fitting for a wide range of model functions from simple linear regression to non-linear models with multiple data sets.
5. Statistics.
6. Analysis (derivatives, integrals, extrema, interpolation).
7. Graphical representation of data in Cartesian coordinates.
8. Complex number math, both in cartesian and polar format.
The vectorized implementation in Assembler makes OptiVec functions, on the average, 2-3 times faster than compiled source code of the same functionality. In many instances, the numerical accuracy is improved as well.
This version is for Borland Delphi 2006 (Borland Developer Studio or Turbo Delphi). |
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| Found: 204. Displaying: 1-10 | | |
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Solid Converter PDF 2.1
Recover and reuse your PDF content with Solid Converter PDF. Simply open your PDF file in Microsoft Word. Then edit. Solid Converter PDF to Word delivers the content right to your fingertips. |
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