::mound:: is a software development management platform. ::mound:: provides simple project management with lots of power, but stays out of the way. ::mound:: is methodology independent and is designed for agile software development. It allows for tracking of bugs, tasks, and projects.
Aspose.Words for SharePoint allows you to convert documents within the Microsoft SharePoint applications. It supports multiple document formats like PDF, DOCX, DOC, RTF, MHT, TXT, XML, ODT, EPUB, and XPS. It is designed to be used with Windows SharePoint Services and Microsoft Office SharePoint Server 2007 (standard and enterprise). You can also use different valuable options during conversion setup like converting files in subfolders or saving destination folder options.
CMDBuild (Configuration and Management Data Base) is a fully configurable Web application for managing asset lifecycles. It includes workflow, report, dashboard, attachment archiving, and georeference functions. It supports the management of hardware devices (client and server computers, peripheral devices, network and phone equipment), software (basic, environment, application), services, and documents (contracts, manuals). However it can be used as a standard asset management system (real estate, inventory, maintenance process, etc). It is also a framework suitable for applications that manage office business using workflows.
Enhydra JaWE (Java Workflow Editor) is an XPDL2.1 based graphical workflow process editor fully adhering to WfMC specifications. It can be used to edit or view any XPDL file which conforms to WfMC specifications. It works with several open source and commercial workflow engines, like Enhydra Shark, WfmOpen, OBE, and OfBiz. It has participated in a WfMC interoperability demo where it was used to handle XPDLs from Fujitsu, TIBCO, and the Enhydra Shark engine.
Shark is an extendable Java workflow engine framework including a standard implementation completely based on WfMC and OMG specifications using XPDL (without any proprietary extensions) as its native workflow process definition format and the WfMC "ToolAgents" API for server-side execution of system activities. It has well defined client interface, as well as its internal component interface.
Makeflow is a workflow engine for executing large complex applications on clusters, clouds, and grids. It can be used to drive several different distributed computing systems, including Condor, SGE, and the included Work Queue system. It does not require a distributed filesystem, so you can use it to harness whatever collection of machines you have available. It is typically used for scaling up data-intensive scientific applications to hundreds or thousands of cores.
OpenGroupware Coils is a Python port of the venerable OpenGroupware project. It is backward compatible and can be installed in parallel with legacy versions of OpenGroupware. It provides additional features including an AMQP-based service architecture and a BPML-based workflow engine. The workflow engine includes the ability to read and write a variety of file formats, operate on relational database services, and a variety of common actions required to automate various tasks. Groupware resources and workflow route, processes, and formats.can be managed via WebDAV. Groupware functionality can also be accessed via the zOGI XML-RPC API just as with legacy ZideStore servers.
The Pegasus Workflow Management System encompasses a set of technologies which help workflow-based applications execute in a number of different environments, including desktops, campus clusters, grids, and clouds. It bridges the scientific domain and the execution environment by automatically mapping high-level workflow descriptions onto distributed resources. It automatically locates the necessary input data and computational resources necessary for workflow execution. It enables scientists to construct workflows in abstract terms without worrying about the details of the underlying execution environment or the particulars of the low-level specifications required by the middleware (Condor, Globus, or Amazon EC2). It bridges the current cyberinfrastructure by effectively coordinating multiple distributed resources.
Proteus Intelligent Processes is a set of tools based upon the Proteus model and the GreEd rule authoring system. Proteus (PROcesses and Transactions Editable by USers) is a software technology that allows creating clinical processes in which clinical intelligence is embedded. These processes can then be executed to provide guidance to the clinicians about individual patients. The main advantage of Proteus is that the processes can be edited even by non-programmers, with the use of appropriate tools. The processes and components can be stored in a library and can be reused to create other processes. GreEd is the foundation of a full-fledged business rules management system (BRMS). Ease of editing is its key strength. These tools are linked with electronic medical record systems and clinical information systems.