XMLBeans is a technology for accessing XML by binding it to Java types. XMLBeans provides several ways to get at the XML. You can do this through XML schema that has been compiled to generate Java types that represent schema types. In this way, you can access instances of the schema through JavaBeans-style accessors after the fashion of "getFoo" and "setFoo". The XMLBeans API also allows you to reflect into the XML schema itself through an XML Schema Object model. There is a cursor model through which you can traverse the full XML infoset. There is support for XML DOM.
AntTask-GenerateXML is an Ant task that uses XMLBeans to create example XML instances from a W3C schema. It is especially useful for looking at pieces of schema, as you can set the element you wish to use as the root one. It will use the values from enumerations as the fixed/default values for attributes and elements if they are set. It obeys the XML type system with the exception of regex/patterns.
JiBX/OTA is a set of examples and sample code intended to help developers working with the Open Travel Alliance schemas. It includes two different examples of JiBX code generation from the OTA schemas, an example of WSDL generation from a Java interface for a Web service based on OTA messages, and two different sample implementations of a client and server for the Web service (Axis2 with standard SOAP/HTTP support, and JiBX/WS with SOAP/HTTP as well as POX/HTTP, SOAP/TCP, and POX/TCP, including high-performance XBIS encoding support).
Xtempore is a lightweight, modular, and powerful XML-based domain independent templating language. It's essentially a programming library which provides flexible tools for transforming an object (model) and an XML document (template) into another XML document. Xtempore is implemented in Java and requires JRE 1.5 or later and slf4j for logging.
YML is a research project that aims to provide tools for using global computing middleware such as GRID, peer to peer, and metacomputing environments. The YML software architecture enables the definition of parallel applications, independently of the underlying middleware used. Parallel applications are defined using a workflow language called YvetteML.
GenFoo is a general Fokker-Planck solver for models of arbitrary dimensionality. It contains three backend solvers, a delta-f Monte Carlo, a standard Monte Carlo, and a Finite Element solver. The key property of the GenFoo package is that physics are separated from numerics by runtime loading of the Fokker-Planck coefficients, which enable solutions of a large class of Fokker-Planck models.