IRIF, the Research Institute on the Foundations of Computer Science, is a research laboratory of CNRS and université Paris-Diderot, also hosting two INRIA project-teams.

The research conducted at IRIF is based on the study and understanding of the foundations of all computer science, in order to provide innovative solutions to the current and future challenges of digital sciences.

IRIF hosts about 200 people. Six of its members have been distinguished by the European Research Council (ERC), three are members of the Institut Universitaire de France IUF), and two are members of the Academia Europæa.

11.9.2019
A. Balliu and D. Olivetti (former IRIF PhD students), J. Hirvonen and M. Rabie (former IRIF postdocs), with S. Brandt and J. Suomela broke an old lower bound open question on Maximal Matchings. Their paper will be presented at FOCS as Best Paper.

Leonid Libkin

3.9.2019
IRIF has the great pleasure to welcome Leonid Libkin, professor at University of Edinburgh, who is visiting for three months. His stay is financed by an FSMP chair. Leonid is an expert in data management and applications of logic in computer science. Meet him in office 4048.

Patrick Dehornoy

6.9.2019
It is with great sadness that we learnt the passing of our collegue Patrick Dehornoy on September the 4th. IRIF had the chance to count this exceptional mathematician amongst his associate members. He will be terribly missed by all his collegues and it is a great loss for the whole scientific community.

10.9.2019
IRIF is seeking excellent candidates for about 10 postdoctoral positions in all areas of the Foundations of Computer Science. Deadline for applications: Nov. 3, 2019.

(These news are displayed using a randomized-priority ranking.)

Type theory and realisability
Wednesday September 18, 2019, 2PM, Salle 1007
Karl Palmskog (The University of Texas at Austin) mCoq: Mutation Proving for Analysis of Verification Projects

Mutation analysis, which introduces artificial defects into software systems, is the basis of mutation testing, a technique widely applied to evaluate and enhance the quality of test suites. However, despite the deep analogy between tests and formal proofs, mutation analysis has seldom been considered in the context of deductive verification. We propose mutation proving, a technique for analyzing verification projects that use proof assistants. We implemented our technique for the Coq proof assistant in a tool dubbed mCoq. mCoq applies a set of mutation operators to Coq definitions of functions and datatypes, inspired by operators previously proposed for functional programming languages. mCoq then checks proofs of lemmas affected by operator application. To make our technique feasible in practice, we implemented several optimizations in mCoq such as parallel proof checking. We applied mCoq to several medium and large scale Coq projects, and recorded whether proofs passed or failed when applying different mutation operators. We then qualitatively analyzed the mutants, and found several examples of weak and incomplete specifications. For our evaluation, we made many improvements to serialization of Coq code and even discovered a notable bug in Coq itself, all acknowledged by developers. We believe mCoq can be useful both to proof engineers for improving the quality of their verification projects and to researchers for evaluating proof engineering techniques.

Joint work with Ahmet Celik, Marinela Parovic, Emilio Jésus Gallego Arias, and Milos Gligoric.

Speaker bio: Karl Palmskog is a Research Fellow at The University of Texas at Austin. His research focuses on proof engineering techniques and verification of distributed systems using Coq. He was previously a postdoctoral researcher at University of Illinois at Urbana-Champaign, working on topics related to the actor model of message-passing concurrency. He obtained his PhD from KTH Royal Institute of Technology.