VCC

VCC is a mechanical verifier for concurrent C programs. VCC takes a C program, annotated with function specifications, data invariants, loop invariants, and ghost code, and tries to prove these annotations correct. If it succeeds, VCC promises that your program actually meets its specifications.


References in zbMATH (referenced in 73 articles )

Showing results 21 to 40 of 73.
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  1. Nemati, Hamed; Guanciale, Roberto; Dam, Mads: Trustworthy virtualization of the ARMv7 memory subsystem (2015) ioport
  2. O’Hearn, Peter W.; Petersen, Rasmus L.; Villard, Jules; Hussain, Akbar: On the relation between concurrent separation logic and concurrent Kleene algebra (2015)
  3. Roşu, Grigore: From rewriting logic, to programming language semantics, to program verification (2015)
  4. Tschannen, J.; Furia, CA; Nordio, M.; Polikarpova, N.: AutoProof: Auto-active Functional Verification of Object-oriented Programs (2015) arXiv
  5. Alkassar, Eyad; Böhme, Sascha; Mehlhorn, Kurt; Rizkallah, Christine: A framework for the verification of certifying computations (2014)
  6. Amighi, Afshin; Blom, Stefan; Darabi, Saeed; Huisman, Marieke; Mostowski, Wojciech; Zaharieva-Stojanovski, Marina: Verification of concurrent systems with VerCors (2014)
  7. Besson, Frédéric; Blazy, Sandrine; Wilke, Pierre: A precise and abstract memory model for C using symbolic values (2014) ioport
  8. Daum, Matthias; Billing, Nelson; Klein, Gerwin: Concerned with the unprivileged: user programs in kernel refinement (2014)
  9. Malkis, Alexander; Banerjee, Anindya: On automation in the verification of software barriers: experience report (2014)
  10. Meyer, Bertrand; Kogtenkov, Alexander: Negative variables and the essence of object-oriented programming (2014) ioport
  11. Moore, J Strother: Proof pearl: proving a simple von Neumann machine Turing complete (2014)
  12. Banerjee, Anindya; Naumann, David A.: Local reasoning for global invariants. II: Dynamic boundaries (2013)
  13. Blanchette, Jasmin Christian; Böhme, Sascha; Paulson, Lawrence C.: Extending Sledgehammer with SMT solvers (2013)
  14. Cousot, Patrick; Cousot, Radhia; Fähndrich, Manuel; Logozzo, Francesco: Automatic inference of necessary preconditions (2013) ioport
  15. Dodds, Josiah; Appel, Andrew W.: Mostly sound type system improves a foundational program verifier (2013)
  16. Křena, Bohuslav; Vojnar, Tomáš: Automated formal analysis and verification: an overview (2013)
  17. Leino, K. Rustan M.: Automating theorem proving with SMT (2013)
  18. Anureev, I. S.; Mar’yasov, Il’ya; Nepomniashchiĭ, V. A.: Two-level mixed verification method of C-light programs in terms of safety logic (2012)
  19. Bjørner, Nikolaj: Taking satisfiability to the next level with Z3 (abstract) (2012)
  20. Blanchette, Jasmin Christian; Popescu, Andrei; Wand, Daniel; Weidenbach, Christoph: More SPASS with Isabelle. Superposition with hard sorts and configurable simplification (2012)