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Symbolic trajectory evaluation for word-level verification: theory and implementation

S. Chakraborty ; Z. Khasidashvili ; Carl-Johan Seger (Institutionen för Data- och informationsteknik, Funktionell programmering (Chalmers)) ; R. Gajavelly ; T. Haldankar ; D. Chhatani ; R. Mistry
Formal Methods in System Design (0925-9856). Vol. 50 (2017), 2-3, p. 317-352.
[Artikel, refereegranskad vetenskaplig]

Symbolic trajectory evaluation (STE) is a model checking technique that has been successfully used to verify many industrial designs. Existing implementations of STE reason at the level of bits, allowing signals in a circuit to take values from a lattice comprised of three elements: 0, 1, and X. This limits the amount of abstraction that can be achieved, and presents limitations to scaling STE to even larger designs. The main contribution of this paper is to show how much more abstract lattices can be derived automatically from register-transfer level descriptions, and how a model checker for the general theory of STE instantiated with such abstract lattices can be implemented in practice. We discuss several implementation issues, including how word-level circuits can be symbolically simulated using a new encoding for words that allows representing X values of sub-words succinctly. This gives us the first practical word-level STE engine, called STEWord. Experiments on a set of designs similar to those used in industry show that STEWord scales better than bit-level STE, as well as word-level bounded model checking.

Nyckelord: Symbolic trajectory evaluation, Word-level verification, SMT solving, X-based abstraction



Denna post skapades 2017-05-17. Senast ändrad 2017-06-08.
CPL Pubid: 249395

 

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