Blogs (9) >>
Sun 30 October - Fri 4 November 2016 Amsterdam, Netherlands
Wed 2 Nov 2016 08:45 - 10:00 at Matterhorn 2 - Keynote Wednesday Chair(s): Eelco Visser

Abstraction and modularity underlie all successful hardware and software systems: We build complex artifacts by decomposing them into parts that can be understood separately. Modular decomposition depends crucially on the artful choice of interfaces between pieces. As these interfaces become more expressive, we think of them as specifications of components or layers. Rich specifications based on formal logic are little used in industry today, but a practical platform for working with them could signicantly reduce the costs of system implementation and evolution by identifying vulnerabilities, helping programmers understand the behavior of new components, facilitating rigorous change-impact analysis, and supporting maintainable machine-checked verication that components are correct and fit together correctly.

Recently, research in the area has begun to focus on a particularly rich class of specifications, which might be called deep specifications. Deep specifications are rich (describing complex component behaviors in detail); two-sided (connected to both implementations and clients); formal (written in a mathematical notation with clear semantics to support tools such as type checkers, analysis and testing tools, automated or machine-assisted provers, and advanced IDEs); and live (connected directly to the source code of implementations via machine-checkable proofs or property-based random testing). These requirements impose strong functional correctness conditions on individual components and permit them to be connected together with rigorous composition theorems.

This talk presents the key features of deep specifications, surveys recent achievements and ongoing efforts in the research community (in particular, work at Penn, Princeton, Yale, and MIT on formalizing a rich interconnected collection of deep specifications for critical system software components), and argues that the time is ripe for an intensive effort in this area, involving both academia and industry and integrating research, education, and community building. The ultimate goal is to provide rigorously checked proofs about much larger artifacts than are feasible today, based on decomposition of proof effort across components with deep specifications.

Benjamin Pierce is Henry Salvatori Professor of Computer and Information Science at the University of Pennsylvania and a Fellow of the ACM. His research interests include programming languages, type systems, language-based security, computer-assisted formal verification, differential privacy, and synchronization technologies. He is the author of the widely used graduate textbooks Types and Programming Languages and Software Foundations. He has served as co-Editor in Chief of the Journal of Functional Programming, as Managing Editor for Logical Methods in Computer Science, and as editorial board member of Mathematical Structures in Computer Science, Formal Aspects of Computing, and ACM Transactions on Programming Languages and Systems. He is also the lead designer of the popular Unison file synchronizer.

Wed 2 Nov

Displayed time zone: Amsterdam, Berlin, Bern, Rome, Stockholm, Vienna change

08:30 - 10:00
Keynote WednesdayKeynotes and Awards at Matterhorn 2
Chair(s): Eelco Visser Delft University of Technology, Netherlands
Day opening
Welcome to SPLASH 2016
Keynotes and Awards
S: Eelco Visser Delft University of Technology, Netherlands
OOPSLA 10-year Most Influential Paper AwardAward
Keynotes and Awards
Eelco Visser Delft University of Technology, Netherlands
SPLASH 2016 Keynote: The Science of Deep SpecificationKeynote
Keynotes and Awards
K: Benjamin C. Pierce University of Pennsylvania
Media Attached