Model-based Testing for Embedded Systems

Rubriques

• Verimag
  • Membres
  • Publications
  • Outils
  • Thèse en cours
  • Emplois et stages
  • Projets
  • Partenaires
  • Colloques et Conférences
  • Séminaires
  • Documents
• Axes
• Contact
• Plan du site

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• Acces au Batiment

Actualités

• ACTUALITÉS
  • CADE-24 Skolem Award

Séminaires

• Séminaires
  • 12 octobre 2023 Nicola Gigante: Temporal logics modulo theories for infinite-state verification
  • 19 octobre 2023 Michael Foster: Active inference of extended finite state machines without reset

Nouvelles publications

• Quelques Publications Récentes
  • Claire Maiza: Hardware and software analyses for precise and efficient timing analysis
  • Erwan Jahier, Karine Altisen, Stéphane Devismes: Exploring Worst Cases of Self-stabilizing Algorithms using Simulations
  • Marius Bozga, Joseph Sifakis: Correct by Design Coordination of Autonomous Driving Systems
  • Florence Maraninchi: Let Us Not Put All Our Eggs in One Basket

Offres d'emploi et stages

• Offres d'emploi et stages
  • [Master] Implementation of critical applications on multi-core : execution mode analysis to reduce interferences
  • Bourses PERSYVAL de M2
  • Measures against speculative attacks in a certified optimizing compiler
  • Security counter-measures in a certified optimizing compiler
  • Verified hash tables and hash-consing
  • [master/PhD] Formally verified optimizations for safety-critical embedded code
  • [master/PhD] Static analysis of “pseudo-LRU” caches
  • [Master] Certification of Distributed Self-Stabilizing Algorithms Using Coq
  • [Master] Design and Evaluation of Strategies for Automated Proofs using Reasoning Modulo Equivalence
  • [Master] Implementing the Silence to Reduce Energy Consumption in Wireless Sensor Networks
  • [Master] Simulation of Distributed Algorithms
  • [Master]Leakage in presence of an active and adaptive adversary
  • [PhD] Logical Foundations of Self-Adapting Distributed Systems
  • [PostDoc] Implementation of critical applications on multi-core : execution mode analysis to reduce interferences