Software product-line engineering: a family-based software development process
Software product-line engineering: a family-based software development process
Organizing for Software Product Lines
IW-SAPF-3 Proceedings of the International Workshop on Software Architectures for Product Families
Software Product Line Engineering: Foundations, Principles and Techniques
Software Product Line Engineering: Foundations, Principles and Techniques
Software Product Lines in Action: The Best Industrial Practice in Product Line Engineering
Software Product Lines in Action: The Best Industrial Practice in Product Line Engineering
HomeAway's Transition to Software Product Line Practice: Engineering and Business Results in 60 Days
SPLC '08 Proceedings of the 2008 12th International Software Product Line Conference
A survey of variability modeling in industrial practice
Proceedings of the Seventh International Workshop on Variability Modelling of Software-intensive Systems
Variability in software: state of the art and future directions
FASE'13 Proceedings of the 16th international conference on Fundamental Approaches to Software Engineering
A PLE-based auditing method for protecting restricted content in derived products
Proceedings of the 17th International Software Product Line Conference
Multistage configuration trees for managing product family trees
Proceedings of the 17th International Software Product Line Conference
Proceedings of the 17th International Software Product Line Conference
Second generation systems and software product line engineering
Proceedings of the 17th International Software Product Line Conference
Systems and software product line engineering with BigLever software gears
Proceedings of the 17th International Software Product Line Conference co-located workshops
Scenario-based verification in presence of variability using a synchronous approach
Frontiers of Computer Science: Selected Publications from Chinese Universities
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General Motors faces probably the most complex Systems and Software Product Line Engineering (PLE) challenges ever, in terms of product complexity, richness of variation, size of organization, and an unforgiving requirement to support over a dozen simultaneous development streams all geared towards each new model year. To meet this challenge, GM turned to an advanced set of explicitly defined product line engineering solutions, which have been referred to as Second Generation PLE (2GPLE). This includes reliance on features as the lingua franca to express product differences in all phases of the lifecycle, deeply nested hierarchical product lines, industrial strength automation to provide modeling consistency throughout, and more. This paper explains how 2GPLE is being applied at General Motors, and the technical and organizational lessons learned so far.