Difference between revisions of "Algart"
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|Name=AlgART Java libraries | |Name=AlgART Java libraries | ||
|Short description=Java libraries for processing arrays and matrices, including image processing | |Short description=Java libraries for processing arrays and matrices, including image processing | ||
− | |Full description= | + | |Full description=AlgART are free software Java libraries, supporting generalized smart arrays and matrices with elements of any types (1 bit, 8/16/32/64-bit integers, 32/64-bit floating point values and any other Java types), including a wide set of of 2D-, 3D- and multidimensional image processing and other algorithms, working with arrays and matrices. |
+ | |||
+ | == Main Features == | ||
+ | |||
+ | * The libraries use 63-bit addressing of array elements (all indexes and length are represented by 64-bit long type). So, it's theoretically possible to create and process arrays and matrices containing up to 2^63-1 (~10^19) elements of any primitive or non-primitive types, if OS and hardware can provide necessary amount of memory or disk space. | ||
+ | |||
+ | * Memory model concept allows storing AlgART arrays in different schemes, from simple Java arrays to mapped disk files; all necessary data transfers are performed automatically while every access to an element or a block of elements. | ||
+ | |||
+ | * Most of algorithms are based on wide usage of lazy evaluations. Typical operations, like elementwise summing or geometrical matrix transformations, are implemented via lazy views of the source array or matrix. | ||
+ | |||
+ | ** For example, you can take a multidimensional matrix, rotate it (or perform any other affine or projective transform), and then extract a submatrix from the result. All these operations will be performed virtually (not requiring time), and actual calculations will be performed only at the moment of accessing elements, usually while copying the resulting matrix to a newly created one. Moreover, in many cases the libraries will "understand" itself, that the user wants to perform rotation or another transform, and will split the matrix into suitable rectangular blocks (fitting in RAM) and choose the best algorithm for this task at the moment of copying operation. | ||
+ | |||
+ | * The libraries contain a wide set of image processing algorithms over matrices: linear filtering, mathematical morphology, rank operations, spectral transformation (FFT), etc. | ||
+ | |||
+ | * There is also skeletonization and measuring of binary images. | ||
|Homepage URL=http://algart.net/java/AlgART/ | |Homepage URL=http://algart.net/java/AlgART/ | ||
|User level=advanced | |User level=advanced | ||
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|Keywords=image processing | |Keywords=image processing | ||
|Version identifier=1.2 | |Version identifier=1.2 | ||
+ | |Version date=2013/12/19 | ||
+ | |Version status=stable | ||
+ | |Version download=http://algart.net/java/AlgART/algart.zip | ||
+ | |Version comment=Downloadable ZIP archive restructured and reduced; new package net.algart.external added | ||
|Status= | |Status= | ||
|Is GNU=No | |Is GNU=No | ||
}} | }} | ||
{{Project license | {{Project license | ||
− | |License= | + | |License=Expat |
− | |License copyright= | + | |License copyright=Copyright 2007-2013 Daniel Alievsky, AlgART Laboratory (http://algart.net) |
− | + | |License verified by=Bencook | |
− | Copyright | + | |License verified date=2013/12/13 |
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|Use=software-development | |Use=software-development | ||
|Version-control=git | |Version-control=git | ||
+ | }} | ||
+ | {{Software prerequisite | ||
+ | |Prerequisite kind=Required to use | ||
+ | |Prerequisite description=Java | ||
}} | }} | ||
{{Featured}} | {{Featured}} |
Latest revision as of 09:40, 19 December 2013
AlgART Java libraries
http://algart.net/java/AlgART/
Java libraries for processing arrays and matrices, including image processing
AlgART are free software Java libraries, supporting generalized smart arrays and matrices with elements of any types (1 bit, 8/16/32/64-bit integers, 32/64-bit floating point values and any other Java types), including a wide set of of 2D-, 3D- and multidimensional image processing and other algorithms, working with arrays and matrices.
Main Features
- The libraries use 63-bit addressing of array elements (all indexes and length are represented by 64-bit long type). So, it's theoretically possible to create and process arrays and matrices containing up to 2^63-1 (~10^19) elements of any primitive or non-primitive types, if OS and hardware can provide necessary amount of memory or disk space.
- Memory model concept allows storing AlgART arrays in different schemes, from simple Java arrays to mapped disk files; all necessary data transfers are performed automatically while every access to an element or a block of elements.
- Most of algorithms are based on wide usage of lazy evaluations. Typical operations, like elementwise summing or geometrical matrix transformations, are implemented via lazy views of the source array or matrix.
- For example, you can take a multidimensional matrix, rotate it (or perform any other affine or projective transform), and then extract a submatrix from the result. All these operations will be performed virtually (not requiring time), and actual calculations will be performed only at the moment of accessing elements, usually while copying the resulting matrix to a newly created one. Moreover, in many cases the libraries will "understand" itself, that the user wants to perform rotation or another transform, and will split the matrix into suitable rectangular blocks (fitting in RAM) and choose the best algorithm for this task at the moment of copying operation.
- The libraries contain a wide set of image processing algorithms over matrices: linear filtering, mathematical morphology, rank operations, spectral transformation (FFT), etc.
- There is also skeletonization and measuring of binary images.
Licensing
License
Verified by
Verified on
Notes
Leaders and contributors
Contact(s) | Role |
---|---|
Daniel Alievsky | developer |
Resources and communication
Software prerequisites
Kind | Description |
---|---|
Required to use | Java |
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