VRE Administration

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Revision as of 15:47, 16 December 2009 by Leonardo.candela (Talk | contribs) (VRE Verification)

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Virtual Research Environments (VREs) are the cooperation environments defined in the context of a Virtual Organisation (VO) user communities are provided with to accomplish specific tasks. These cooperation environments are equipped with specific facilities and resources (e.g. collections and data sources) deemed relevant with respect to the application scenario the VRE has been conceived for. The overall resources (e.g. computing resources, collection, services) supporting the operation of the VRE are dynamically aggregated by relying on those forming the VO while the operation of the VRE is automatically guaranteed by the set of services forming the Core Services.

The administration of these cooperation environments is a four tasks activity envisaging:

  • a definition phase in which a user having the role of VRE Designer specifies the characteristics of a new VRE conceived to serve an application scenario;
  • an approval phase in which a user having the role of VRE Manager decides whether the specified VREs have to be accepted or rejected. For what is concerned with the accepted VRE, the VRE Manager decides also how this VRE has to be deployed, e.g. which hosting nodes will be exploited;
  • a verification phase in which a user having the role of VRE Manager validates a VRE resulting from the approval phase;
  • a management phase in which a user having the role of VRE Manager operates on a deployed VRE in order to customise specific aspects (e.g. the layout governing the placement of user interfaces constituents a.k.a. portlets) or monitor the operational state of the VRE as a whole.

VRE Definition

The VRE Definition is the procedure performed by the VRE Designer and leading to the specification of a Virtual Research Environment, i.e. the selection of the resources and the identification of other characteristics describing the desiderata for a VRE devised to serve the needs of a specific community.

This procedure is supported by a dedicated portlet, the VRE Definition Portlet, that implements a wizard-based approach.

This portlet guide the VRE Designer through the following steps:

  1. VRE Profile Specification: the VRE Designer should enter data characterising the VRE profile. In particular, he/she should specify the VRE name and the VRE description, should select the user that will play the role of VRE Manager (by selecting among the pool of users having such privilege in the Virtual Organisation the VRE will operate in) and should specify the expected duration time, i.e. the start date and the end date characterising the lifetime of the VRE;
  2. Collection Selection: the VRE Designer is provided with the list of collections currently available in the Virtual Organisation the VRE will operate in and, by relying on the description of these data sources, should identify those pertinent to the application scenario the VRE is devised for. For each collection, the VRE Designer is provided with a description and other information like the number of elements or the creation date helping to identify the proper ones;
  3. Metadata Selection: the VRE Designer is provided with the list of metadata formats collection items can be described with and should identify those pertinent to the application scenario the VRE is devised for. For each collection the VRE Designer can select one or more metadata formats. These metadata formats will characterise some of the functionality of the resulting VRE, e.g. the end users will rely on them to discover the information objects in the collection VREs. For each metadata format the VRE Designer is provided with descriptive information;
  4. Functionality Selection: the VRE Designer is provided with the list of functionality that can be deployed and should identify those pertinent to the application scenario the VRE is devised for. For each functionality, the VRE Designer is provided with descriptive information;
  5. VRE Specification Summary: the VRE Designer is provided with the overall specification resulting from the previous steps and should either submit this specification for approval or change some of the choices.

VRE Approval

Approving the Virtual Research Environment

VRE Verification

VRE Verification is the action performed by the VRE Manager to check the features of the deployed VRE.

This action includes two steps:

  • the check of the status of the VRE resources;
  • the actual test of the VRE. In this phase, the VRE Manager should log in the just created VRE and go through the various functionality the VRE is conceived to realise to test their compliance with the requirement and their effectiveness. There is no tool supporting this step except the portal.

Once this test is complete, the VRE Manager can start managing the VRE, e.g. inform the community on the availability of this new VRE and start managing requests for membership.

VRE Management

VRE Management includes the activities performed during the VRE operation in order to revise the behaviour of the application. It includes

VRE Layout Specification

The VRE layout characterises the arrangement of the VRE graphical user interface. In particular, it specifies how the user interface main constituents, i.e. the portlets, are arranged in tabs, sub-tabs, rows and columns.

To create this layout, the VRE Manager should use the Layout Generator, a user friendly interface through which

  • tabs and sub-tabs can be created, and
  • portlets can be placed in the area identified by sub-tab;

Layout Generator Interface

Information on how to use the Layout Generator are available here

VRE Information Space Specification

The VRE Information Space characterises the arrangement of the VRE collections into a hierarchy. In particular, it specifies how the VRE collections are organised in groups and sub-groups.

To create this layout, the VRE Manager should use the Information Space Editor, a user friendly interface through which

  • groups and sub-groups can be created;
  • VRE collections can be assigned to a group by dragging it;
  • collection information can be edited.

Information on how to use the Layout Generator are available here.

VRE Users Management

A VRE is an application conceived to serve the needs of a well defined pool of people, its users.

In order to manage the pool of users of a VRE, the VRE Manager should use the Users Management Portlet, a user friendly interface through which he/she can

  • manage request for membership;
  • revise the roles a users is entitled to play;
  • remove users.

Information on how to use the portlet are available here.

VRE Monitoring

VRE Monitoring is the action through which the VRE Manager checks the status and quality of the resources partaking to the VRE.

This activity is performed by using the gCube Monitoring System, in particular the Infrastructure Viewer tool.

The Infrastructure Viewer tool is equipped with a per VRE set of views that is obtained by selecting the VRE the Manager is interested in and the view through the panel below:

IV Views.jpg

The six per VRE views are:

  • GHN View: represents the current status of the GNHs partaking to the VRE grouped by site. The status of a GHN can be "started", "ready", "failed", "certified", "down", "unreachable". The semantic of these status is described here;
  • Package View: represents the current status of the software artifacts in the context of the VRE. The status of an artifact are "deployed", "undeployed";
  • Service View: represents the current status of the running instances serving the VRE. The status of a Running Instance can be "ready", "failed", "down", "outdated", "unreachable". The semantic of these status is described here.
  • Data View: represents the current status of the collections exploited in the VRE, including the metadata collections and the indices created on top of them to support search and browse functionality. The tool highlight warning and errors resulting from potential mismatches between the number of objects in a collection and those in the related metadata collection or index;
  • Package Dependencies View: represents the current status of ...
  • Service Dependencies View: represents the current status of ...

An example of these view is reported in the picture below.

IV GHNViewSample.jpg