Difference between revisions of "Review:RTE"

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Currently much time is spent in setting up system tests, trying to understand exactly what is being tested, understanding errors that occur during tests and verifying the test results. These issues can be especially difficult for distributed enterprise applications made up of a large number of software components that run on a collection of heterogeneous servers or in cloud environments. Load generation for accurate simulation of complex user behaviour is a growing challenge when testing large-scale critical systems. For example, with more and more applications moving to cloud-based infrastructures, typical load generation designed for applications residing on a local area network may be ineffective for robust testing. Research is required to develop new load generation techniques that take into consideration new cloud-based infrastructures where applications may be physically distributed across different infrastructures in different geographical locations and where network bandwidth may be unknown or at different quality levels at various points. This research will develop a set of prototype tools to allow for the more efficient system testing of large enterprise applications.  
 
Currently much time is spent in setting up system tests, trying to understand exactly what is being tested, understanding errors that occur during tests and verifying the test results. These issues can be especially difficult for distributed enterprise applications made up of a large number of software components that run on a collection of heterogeneous servers or in cloud environments. Load generation for accurate simulation of complex user behaviour is a growing challenge when testing large-scale critical systems. For example, with more and more applications moving to cloud-based infrastructures, typical load generation designed for applications residing on a local area network may be ineffective for robust testing. Research is required to develop new load generation techniques that take into consideration new cloud-based infrastructures where applications may be physically distributed across different infrastructures in different geographical locations and where network bandwidth may be unknown or at different quality levels at various points. This research will develop a set of prototype tools to allow for the more efficient system testing of large enterprise applications.  
  
{| border="1"
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=== People involved ===
|-
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! Quarter !! Deliverables !! Files
+
* Sandra Theodora Buda - PhD Student, UCD
|-
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* Vanessa Ayala - PhD Student, UCD
| Q2 2012  || Survey of data mining algorithms.  || Slides
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* Seán Ó Rí­ordáin - PhD Student, TCD
|-
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* Thomas Cerqueus - Postdoc researcher, UCD
| Q3 2012 || Initial algorithm to automatically extract relationships between schemas in a DB || ICUIMC
+
* Patrick McDonagh - Postdoc researcher, DCU
|-
+
* Anthony Ventresque - Postdoc researcher, UCD
| Q1 2013 || Survey of algorithms for database sampling. <br/> Design and specification of an algorithm for database sampling (table-level) || DEXA
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* Christina Thorpe - Postdoc researcher, UCD
|-
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* Philip Perry - Postdoc researcher, UCD
| Mar 2012 || Specification of algorithms for robust load generation ||
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* Simon Wilson - Professor, TCD
|-
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* John Murphy - Professor, UCD
| Jun 2012 || Design of data set generation tool ||
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* Liam Murphy - Professor, UCD
|}
+
 
 +
=== Collaborations ===
 +
 
 +
* IBM Dublin
 +
* Eduardo Cunha de Almeida - PhD, Federal University of Paran&aacute; (Brazil)
 +
* Gerson Suny&eacute; - PhD, University of Nantes (France)
 +
* Yves Le Traon, Professor, University of Luxembourg (Luxembourg)

Revision as of 14:53, 29 May 2013

<accesscontrol>reviewer,pel</accesscontrol>

Robust Testing Environments (RTE)

Currently much time is spent in setting up system tests, trying to understand exactly what is being tested, understanding errors that occur during tests and verifying the test results. These issues can be especially difficult for distributed enterprise applications made up of a large number of software components that run on a collection of heterogeneous servers or in cloud environments. Load generation for accurate simulation of complex user behaviour is a growing challenge when testing large-scale critical systems. For example, with more and more applications moving to cloud-based infrastructures, typical load generation designed for applications residing on a local area network may be ineffective for robust testing. Research is required to develop new load generation techniques that take into consideration new cloud-based infrastructures where applications may be physically distributed across different infrastructures in different geographical locations and where network bandwidth may be unknown or at different quality levels at various points. This research will develop a set of prototype tools to allow for the more efficient system testing of large enterprise applications.

People involved

  • Sandra Theodora Buda - PhD Student, UCD
  • Vanessa Ayala - PhD Student, UCD
  • Seán Ó Rí­ordáin - PhD Student, TCD
  • Thomas Cerqueus - Postdoc researcher, UCD
  • Patrick McDonagh - Postdoc researcher, DCU
  • Anthony Ventresque - Postdoc researcher, UCD
  • Christina Thorpe - Postdoc researcher, UCD
  • Philip Perry - Postdoc researcher, UCD
  • Simon Wilson - Professor, TCD
  • John Murphy - Professor, UCD
  • Liam Murphy - Professor, UCD

Collaborations

  • IBM Dublin
  • Eduardo Cunha de Almeida - PhD, Federal University of Paraná (Brazil)
  • Gerson Sunyé - PhD, University of Nantes (France)
  • Yves Le Traon, Professor, University of Luxembourg (Luxembourg)