1. GTLAB: Grid Tag Libraries Supporting Workflows within Science Gateways
Mehmet A. Nacar, Marlon E. Pierce, Geoffrey C. Fox
Community Grids Lab
Indiana University

2. Grid-style portal as used in Earthquake Grid
The Portal is built from portlets – providing user interface fragments for each service that are composed into the full interface – uses OGCE technology as does planetary science VLAB portal with University of Minnesota
Now to Portals 2 2

3. Introduction to GTLAB Grid Tag Libraries and Beans (GTLAB)
Encapsulates clients to common Grid services as XML tag libraries and server side Java beans.
Embedded by portlet developers in their portlet pages to invoke common tasks
Specification of the composite action you want to occur when a user hits the submit button.
Allows portal developers to concentrate on the user interface components.
Tags can be arranged in directed acyclic graphs (dependency chains).
These represent simple workflows.
Based on extensions to Java Server Faces (JSF) and the Java CoG Kit.
Implements a component model for UI’s that is more powerful than portlets

4. Motivation
OGCE Grid portlets typically wrap each single Grid capability in a separate portlet
GridFTP-->GridFTP Portlet
Gateway portlets encapsulate sophisticated but specialized functionality.
Such as submitting multiple linked jobs
Each functionality requires a separate portlet
We need a middle way to “automatically” build complex functionality from component parts
Traditional portlets don’t work as no agreed way to combine component portlets into an integrated user capability
We need a component model for portlets: reusable portlet parts
JSF is our starting point
Removes dependencies on the Servlet API.
Backend software is just beans, so can be reused more easily outside of web and portlet applications.
JSF also provides an extensible framework (tag libraries)
Apache JSF portlet bridge allows you to convert standalone JSF applications (development phase) into portlets (deployment phase). 4

5. Architecture Overview
Grid portals are client to backend codes through Web/Grid services.
Grid tags are part of user interface tier and embedded into portlet container.
Grid tags use local services in Apache Tomcat to manage sessions and handlers.
Grid beans implement a layer on top of Grid client APIs such as Java CoG
Implies that “portal” is quite sophisticated as must support integration
Note CoG kit is here to act as a broker to hide complexities of evolving services (e.g. different versions of Globus)
“violates service model” in that core software centralized in portal application

6. GTLAB Example
Grid tags are associated with Grid services via Grid beans
Grid Beans wrap the Java COG Kit (version 4)
We show an example JSF page section below.
This allows you to develop new Grid portlets with no additional Java code.
<html><body> < f:view> <!-- Other user interface tags go here--> <f:form> <o:submit id=”test” action=”next_page”> <o:myproxy id=”pr” hostname=”gf1.ucs.indiana.edu” port=”7512” lifetime=”2” username=“mnacar” password=”***” /> <o:jobsubmit id=”task” hostname=”cobalt.ncsa.teragrid.org” provider=”GT4” executable=”/bin/ls” stdout=”tmp/result stderr=”tmp/error” /> </o:submit> </f:form> </f:view> </body> </html>

7. GTLAB features
GTLAB provides common components for building portlets using tags and reusable parts.
The goal of GTLAB to simplify Grid portlet development
Enable rapid development from reusable components
GTLAB capabilities include Grid operations with XML based tags within JSF framework.
Grid tag libraries are built using JSF custom component development techniques
Grid tags are interfaces to backing Grid beans
End users pass values to Grid beans by using tag attributes.
Each backing Grid bean has equal capability with a portlet application in case of Grid portlet approach.
GridFtp tag generates GridFTP Portlet
But tags allow service backend component model to map into an intermediate UI component models – each tag set is a component
The components tags can easily be composed into a rich UI which portlets cannot do

8. ComponentBuilderBean
Grid Tags
Associated Grid Beans
Features
<submit/>
ComponentBuilderBean
Creating components, job handlers, submitting jobs. This is visually rendered as HTML
<handler/>
MonitorBean
Handling monitoring page actions
<multitask/>
MultitaskBean
Constructing simple workflow
<dependency/>
Defining dependencies among sub jobs
<myproxy/>
MyproxyBean
Retrieving myproxy credential
<fileoperation/>
FileOperationBean
Providing Gridftp operations
<jobsubmission/>
JobSubmitBean
Providing GRAM job submissions
<filetransfer/>
FileTransferBean
Providing Gridftp file transfer
(Other JSF UI Tags)
ResourceBean
Describes common properties among all tags and beans. Passing values given by standard visual JSF components.

9. VLAB Computational Chemistry Portal

10. VLAB: The Virtual Laboratory for Earth and Planetary Materials
Primarily a traditional job submission, monitoring, and management portal.
Originally tried to use first generation of OGCE where all capabilities are portlets
Collaborative Grid services and portals support computational material science.
VLAB Challenges:
Generic GRAM job submission portlet does not fit with VLab requirements
Quantum Espresso requires parameter entries and checking
Grid Portlets must be easy to develop using component libraries.
Transfer data files in and out of the desired remote host.
Run one or more executables.
Keep track of job progress
Store all of the information as “job archive” for reproducibility.

11. Vlab portlet pages
VLab portlets include job preparation and submission, job monitoring
Vlab portlet pages can handle sophisticated user interfaces

12. Case Study: VLAB Portal

13. Encoding DAGs in Portlets
Multitask provides a simple Directed Acyclic Graph (DAG)
This example demonstrates a composite Grid job using multi-staged multitask
GTLAB handles lifecycle of DAG within JSF application

14. DAG Example JSF Page This encodes the DAG on the previous page.
<o:submit id=”test” action=”next_page” />
<o:multitask id=”mytask” taskname=”test” persistent=”true” >
<o:myproxy id=”pr” hostname=”gf1.ucs.indiana.edu” port=”7512” lifetime=”2” username=“nacar” password=”***” />
<o:fileoperation id=”taskA” command=”mkdir” hostname=”cobalt.ncsa.teragrid.org”
path=”/home/manacar/tmp/” />
<o:filetransfer id=”taskB”
from=”gridftp://gf1.ucs.indiana.edu:2811/home/manacar/input_file”
to=”gridftp://cobalt.ncsa.teragrid.org:2811/home/manacar/input_file” />
<o:jobsubmit id=”taskC” hostname=”cobalt.ncsa.teragrid.org” provider=”GT4” executable=”/bin/execute”
stdin=”tmp/input_file” stdout=”tmp/result” stderr=”tmp/error” />
<o:filetransfer id=”taskD”
from=”gridftp://cobalt.ncsa.teragrid.org:2811/home/manacar/tmp/result”
to=” gridftp://gf1.ucs.indiana.edu:2811/home/manacar/result” />
<o:dependency id=”dep1” task=”taskB” dependsOn=”taskA” />
<o:dependency id=”dep2” task=”taskC” dependsOn=”taskB” />
<o:dependency id=”dep3” task=”taskD” dependsOn=”taskC” />
</o:multitask>
</o:submit>
This encodes the DAG on the previous page.

15. Grid tags are embedded into JSF view pages and decorated with standard JSF form, input, output and button components
Grid components are non-visual.
GTLAB
Standard JSF

16. DAG extensions: Condor DAGMan
GTLAB architecture is extensible
Besides Globus Grid services support, Grid community also use other common Grid services such as Condor
We extend GTLAB to support Condor capabilities
Condor DAGMan is a tool for complex application workflows on Condor
Birdbath is Web services provider of Condor capabilities
GTLAB tags for DAGMan use Birdbath service to create client stubs
Grid tags integrate DAGMan with the following tags:
<o:condorDagman/> and <o:condorSubmit/>
GTLAB executes and monitors DAGs by Condor
Composing DAGMan workflow is out of scope.

17. Taverna workflows
DAGs provide advantages to pipe Grid invocations (dataflow)
But DAGs cannot support full-fledged workflow capabilities like conditional branches and loops.
We studied Taverna as a test case.
We can investigate Kepler and BPEL implementations as future extensions
Workflow systems have different features:
Composing
Enacting
Monitoring
GTLAB supports Taverna enactment and monitoring.
GTLAB imports well studied built-in workflows collected by the community
Bioinformatics workflows and their metadata is available
Workflow composition is out of scope of this work
There is much ongoing research in this area

18. Taverna use case
A user interacts with a workflow portlet (left of picture) to utilize Taverna enactor.
User provides parameters by submitting a web form that start the sequence of events.
November 27, 2018
Mehmet Nacar

19. Advantages of GTLAB
GTLAB provides simplicity to develop science portals
Rapid development
Easy deployment
Grid tags provide rich selection of attributes to initialize Grid beans.
Composite tasks can contain an unlimited number of subtasks
GTLAB gives flexibility to developers to use their own Grid beans library or add more Grid beans to the existing ones.
Following the method name convention of GTLAB
Grid beans also can be imported to any presentation logic
GCEShell is a command-line tool
Grid bean methods are bound to tags with attributes to simplify the building of new Grid portlets
You may want to delete or change this slide.

20. GTLAB Overhead
GTLAB Processing
JSF Processing
Handler storing
Submitting
Time (msec) 2
153 1
410
Total overhead = Tsubmit-Trequest = 156 msec (that includes JSF overhead)
Average overhead of GTLAB is about few milliseconds
GTLAB does not add up significant delay on processing the requests.

21. GTLAB Related Work GridSphere’s Grid Portlets 1.3 Karajan
Grid Portlets 1.3 provide API and User Interface (UI) tags to build Grid portlets
An effort called Vine (Portlet Vine) refactors Grid portlets and decouples the portlets from GridSphere
Karajan
XML based workflow language and engine for Grid computing
Built on Java CoG Kit
Requires additional effort to aggregate it into Grid portals
MyGrid Portlet Interface (MPI)
Based on Taverna workflows (Scufl)
Workflow execution and monitoring portlets

22. Conclusion and Future Work
Described the process for creating Grid portlets using GTLAB.
We gained rapid development by using reusable components
GTLAB can handle composite Grid operations
Extended our approach to support different workflow engines.
Condor DAGMan and Taverna
Investigate integrating AJAX and more generally gadget architectures (Web 2.0 portals) with our session management and monitoring. 22 22

23. More Information GTLAB version 1.0 Beta release available at
See link from main OGCE web site
Contact OGCE:
Contact Mehmet: