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MOA – Massive Online Analysis is a handy framework designed to help you learn from a continuous supply of examples, a data stream. Includes tools for evaluation and a collection of machine learning algorithms.
The supported data sources or streams are: ARFF Reader, Random Tree Generator, SEA Concepts Generator, STAGGER Concepts Generator, Rotating Hyperplane, Random RBF Generator, LED Generator, Waveform Generator, and Function Generator.
MOA – Massive Online Analysis Description:

MOA – Massive Online Analysis is a handy framework designed to help you learn from a continuous supply of examples, a data stream. Includes tools for evaluation and a collection of machine learning algorithms.
The supported data sources or streams are: ARFF Reader, Random Tree Generator, SEA Concepts Generator, STAGGER Concepts Generator, Rotating Hyperplane, Random RBF Generator, LED Generator, Waveform Generator, and Function Generator.
MOA – Massive Online Analysis Description:

MOA – Massive Online Analysis is a handy framework designed to help you learn from a continuous supply of examples, a data stream. Includes tools for evaluation and a collection of machine learning algorithms.
The supported data sources or streams are: ARFF Reader, Random Tree Generator, SEA Concepts Generator, STAGGER Concepts Generator, Rotating Hyperplane, Random RBF Generator, LED Generator, Waveform Generator, and Function Generator.
MOA – Massive Online Analysis Description:

MOA – Massive Online Analysis is a handy framework designed to help you learn from a continuous supply of examples, a data stream. Includes tools for evaluation and a collection of machine learning algorithms.
The supported data sources or streams are: ARFF Reader, Random Tree Generator, SEA Concepts Generator, STAGGER Concepts Generator, Rotating Hyperplane, Random RBF Generator, LED Generator, Waveform Generator, and Function Generator.
MOA – Massive Online Analysis Description:

MOA – Massive Online Analysis is a handy framework designed to help you learn from a continuous supply of examples, a data stream. Includes tools for evaluation and a collection of machine learning algorithms.
The supported data sources or streams are: ARFF Reader, Random Tree Generator, SEA Concepts Generator, STAGGER Concepts Generator, Rotating Hyperplane, Random RBF Generator, LED Generator, Waveform Generator, and Function Generator.
MOA – Massive Online Analysis Description:

MOA – Massive Online Analysis is a handy framework designed to help you learn from a continuous supply of examples, a data stream. eea19f52d2

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The CheckBoxValidator control is a replacement for the asp:CheckBox control. It is highly flexible and
powerful, and is particularly useful for checking whether a particular field is set to a specific
value. CheckBoxValidator supports value grouping and multi-selection. It also supports display of
help text and template images, as well as client side validation of the checked/unchecked state. This
control supports the IClientValidatable interface, allowing custom client-side validation rules to be
applied to CheckBoxValidator. It can be easily customized to support a variety of custom validation
rules.

If the ValidationMessageTemplate property is set to an empty string, the
validation message is displayed in a standard ASP.NET validation message. If a string
template is set, it is displayed with a label, specified by the LabelFor property.

But you didn’t say you need to only support.NET Framework 2.0 only. You can actually include a DLL in a DLL and even have it validate a CheckBox. If you have the source code to any control, you can use it as long as it is free and open source.
In this case you can open the DLL in notepad and see how it is written. You can then either copy and paste, or simply copy and rename.
This allows you to reuse logic by maintaining the base control. You can even create new versions and release them separately as long as the logic remains the same.
Hope this helps.
Regards,
@

A:

I think you need to spend a little time looking into validation.
I can’t speak to the specifics of Microsoft’s implementation of the control, but the CheckBox is the core validation control. Validation occurs client side, but you can add client side validation to a Control with the ClientValidationFunction attribute. I’m pretty sure Microsoft includes a built in control for that.
You can accomplish pretty much the same thing with the CheckBox, though. In my experience, it is just as easy to validate using the control as it is using a function. You can also use the ClientValidationFunction attribute if you need to add client side validation to the control.
The other piece to this is if the data being entered is user supplied and/or dynamic (such as pulled from a database or web service), you need to think about how to validate the data. One approach

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