HyVar: Scalable Hybrid Variability for Distributed Evolving Software Systems
HyVar is a 3-year European research project which will run in the period February 2015-January 2018.
The project is funded by the European Commission under the Horizon 2020 framework programme's call H2020-ICT-2014-1 under the topic Tools and Methods for Software Development (ICT-09-2014). For more information, see the official web-page.
In a nutshell
HyVar proposes a development framework for continuous and individualized evolution of distributed software applications running on remote devices in heterogeneous environments. The framework will combine variability modeling from software product lines with formal methods and software upgrades, and be integrated in existing software development processes. HyVar's objectives are
- to develop a Domain Specific Variability Language (DSVL) and tool chain to support software variability for such applications;
- to develop a cloud infrastructure that exploits software variability as described in the DSVL to track the software configurations deployed on remote devices and to enable (i) the collection of data from the devices to monitor their behavior; and (ii) secure and efficient customized updates;
- to develop a technology for over-the-air updates of distributed applications which enables continuous software evolution after deployment on complex remote devices that incorporate a system of systems; and
- to test HyVar's approach as described in the above objectives in an industry-led demonstrator to assess in quantifiable ways its benefits.
HyVar goes beyond the state-of-the-art by proposing hybrid variability; i.e., the automatic generation and deployment of software updates combines the variability model describing possible software configurations with sensor data collected from the device. HyVar's scalable cloud infrastructure will elastically support monitoring and customization for numerous application instances. Software analysis will exploit the structure of the variability models. Upgrades will be seamless and sufficiently nonintrusive to enhance the user quality experience, without compromising the robustness, reliability and resilience of the distributed application instances. To maximize impact and innovation, the consortium balances carefully selected academic and industrial partners ensuring both technology pull and push.