http://www.dagstuhl.de/16172

April 24 – 27 , 2016, Dagstuhl Seminar 16172

Machine Learning for Dynamic Software Analysis: Potentials and Limits

Organizers

Amel Bennaceur (The Open University – Milton Keynes, GB)
Dimitra Giannakopoulou (NASA – Moffett Field, US)
Reiner Hähnle (TU Darmstadt, DE)
Karl Meinke (KTH Royal Institute of Technology – Stockholm, SE)

For support, please contact

Dagstuhl Service Team

Documents

Dagstuhl Report, Volume 6, Issue 4 Dagstuhl Report
Aims & Scope
List of Participants
Shared Documents
Dagstuhl Seminar Schedule [pdf]

Summary

Machine learning of software artefacts is an emerging area of interaction between the machine learning (ML) and software analysis (SA) communities. Increased productivity in software engineering hinges on the creation of new adaptive, scalable tools that can analyse large and continuously changing software systems. For example: agile software development using continuous integration and delivery can require new documentation models, static analyses, proofs and tests of millions of lines of code every 24 hours. These needs are being addressed by new SA techniques based on machine learning, such as learning-based software testing, invariant generation or code synthesis.

Machine learning is a powerful paradigm for SA that provides novel approaches to automating the generation of models and other essential artefacts. However, the ML and SA communities are traditionally separate, each with its own agenda. This Dagstuhl Seminar brought together top researchers active in these two fields who can present the state of the art, and suggest new directions and collaborations for future research. We, the organisers, feel strongly that both communities have much to learn from each other, and the seminar focused strongly on fostering a spirit of collaboration.

The first day was dedicated to mutual education through a series of tutorials by leading researchers in both ML and SA to familiarise everyone with the terminology, research methodologies, and main approach of each community. The second day was dedicated to brainstorming and focused discussion in small groups, each of which supported by one of the organisers acting as a facilitator. At the end of the day a plenary session was held for each group to share a summary of their discussions. The participants also reflected and compared their findings. The morning of the third day was dedicated to the integration of the groups and further planning.

This report presents an overview of the talks given at the seminar and summaries of the discussions of the participants.

Aknowledgements

The organisers would like to express their gratitude to the participants and the Schloss Dagstuhl team for a productive and exciting seminar.

License
  Creative Commons BY 3.0 Unported license
  Amel Bennaceur, Dimitra Giannakopoulou, Reiner Hähnle, and Karl Meinke

Classification

  • Artificial Intelligence / Robotics
  • Semantics / Formal Methods
  • Software Engineering

Keywords

  • Software analysis
  • Machine learning
  • Dynamic analysis
  • Testing
  • Automata learning

Book exhibition

Books from the participants of the current Seminar 

Book exhibition in the library, ground floor, during the seminar week.

Documentation

In the series Dagstuhl Reports each Dagstuhl Seminar and Dagstuhl Perspectives Workshop is documented. The seminar organizers, in cooperation with the collector, prepare a report that includes contributions from the participants' talks together with a summary of the seminar.

 

Download overview leaflet (PDF).

Publications

Furthermore, a comprehensive peer-reviewed collection of research papers can be published in the series Dagstuhl Follow-Ups.

Dagstuhl's Impact

Please inform us when a publication was published as a result from your seminar. These publications are listed in the category Dagstuhl's Impact and are presented on a special shelf on the ground floor of the library.

NSF young researcher support