Features: Difference between revisions

Latest revision as of 19:23, 10 March 2016

Alida provides a framework for easy development and usage of data analysis procedures.
Below an overview of its main features is given.

Operator Concept

common interface for all implemented operators: unified access to all operator parameters, standardized operator invocation procedures
various parameter types: input, output and combined input/output parameters
support for operator class inheritance and operators as parameters
dynamic addition and removal of parameters at runtime
callback functions attached to parameters and invoked in case of parameter value changes
support for controllable operators which can be paused/continued and stopped by the user
extensible provider framework for data type I/O with built-in support for native data types, enumerations, collections, ...
simple definition of new user-defined I/O data types by parameterized classes

Automatic Process Documentation

inherent self-documentation of all calls to operators, i.e. of entire analysis procedures
each result data object accompanied by individual history graph in XML format
history graph exploration tool Chipory, a comfortable graph visualization tool for exploring graph data structures based on Chisio, however, extended to meet the special requirements of Alida's history graphs.

User Interfaces

automatic generation of user interfaces for command line and graphical applications
flexible command line parser supporting regular expressions and various I/O channels (file, console)
handy configuration and control windows for configuring and running operators in graphical environments
support for saving/loading operator configuration parameters in XML format
batch mode option in GUIs to apply operators to sets of input data objects

Grappa - The Graphical Workflow Editor

graphical combination of operator nodes into workflows
built-in compatibility checks on dragging edges
provider framework for automatic data type conversions
user-friendly visual feedback about node states (unconfigured, ready to run, terminated, etc.)
different workflow execution modes (complete workflows, sub-workflows, individual nodes)

@@ Line 1: / Line 1: @@
 __NOTOC__
-Alida provides a framework for automatic documentation of data analysis procedures.<br/><br/>
+Alida provides a framework for easy development and usage of data analysis procedures.<br/>
+Below an overview of its main features is given.<br/><br/>
-'''Operators'''<br/>
+'''Operator Concept'''<br/>
-The operator concept is the main ingredient of Alida. By developing such operators, the processing steps<br/>
+* common interface for all implemented operators: unified access to all operator parameters, standardized operator invocation procedures
-of an analysis procedure can be linked to a directed graph structure, which allows '''self-documentation'''<br/>
+* various parameter types: input, output and combined input/output parameters
-of the entire analysis process. Each resulting data object, being the result of a certain operator or sequence <br/>
+* support for operator class inheritance and operators as parameters
-of operations, is associated with a '''history graph''' in XML format.<br/><br/>
+* dynamic addition and removal of parameters at runtime
+* callback functions attached to parameters and invoked in case of parameter value changes
+* support for ''controllable operators'' which can be paused/continued and stopped by the user
+* extensible provider framework for data type I/O with built-in support for native data types, enumerations, collections, ...
+* simple definition of new user-defined I/O data types by ''parameterized classes''<br/><br/>
-'''History Graphs'''<br/>
+'''Automatic Process Documentation'''<br/>
-Analysis procedures inherently define an acyclic directed graph data structure which Alida make explicit in terms of<br/>
+* inherent ''self-documentation'' of all calls to operators, i.e. of entire analysis procedures
-history graphs. They define visual representations of data analysis procedures subsuming operators, their order of<br/>
+* each result data object accompanied by individual ''history graph'' in XML format
-invocation and their parameters. The graphs allow for easy archival and later reconstruction of analysis procedure and<br/>
+* history graph exploration tool ''Chipory'', a comfortable graph visualization tool for exploring graph data structures based on [http://www.cs.bilkent.edu.tr/~ivis/chisio.html Chisio], however, extended to meet the special requirements of Alida's history graphs.<br/><br/>
-can be visualized in a comfortable manor with '''Chipory'''.<br/><br/>
-'''Chipory'''<br/>
+'''User Interfaces'''<br>
-Chipory is a comfortable graph visualization tool for exploring graph data structures. It is based on [http://www.cs.bilkent.edu.tr/~ivis/chisio.html Chisio], however,<br/>
+* automatic generation of user interfaces for command line and graphical applications
-extended to meet the special requirements of Alida's history graphs.<br/><br/>
+* flexible command line parser supporting regular expressions and various I/O channels (file, console)
+* handy configuration and control windows for configuring and running operators in graphical environments
+* support for saving/loading operator configuration parameters in XML format
+* batch mode option in GUIs to apply operators to sets of input data objects<br/><br/>
+'''Grappa - The Graphical Workflow Editor'''<br>
+* graphical combination of operator nodes into workflows
+* built-in compatibility checks on dragging edges
+* provider framework for automatic data type conversions
+* user-friendly visual feedback about node states (unconfigured, ready to run, terminated, etc.)
+* different workflow execution modes (complete workflows, sub-workflows, individual nodes)

Features: Difference between revisions

Latest revision as of 19:23, 10 March 2016

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