Abstract. We consider a fully SAT-based method of unbounded symbolic model checking based on computing Craig interpolants. In benchmark studies using a set of large industrial circuit verification instances, this method is greatly more efficient than BDD-based symbolic model checking, and compares favorably to some recent SAT-based model checking methods on positive instances.
We describe a model checker for infinite-state sequential programs, based on Craig interpolation and the lazy abstraction paradigm. On device driver benchmarks, we observe a speedup of up to two orders of magnitude relative to a similar tool using predicate abstraction.
Abstract. A method of symbolic model checking is introduced that uses conjunctive normal form (CNF) rather than binary decision diagrams (BDD's) and uses a SAT-based approach to quantifier elimination. This method is compared to a traditional BDD-based model checking approach using a set of benchmark problems derived from the compositional verification of a commercial microprocessor design.
Abstract-The theory of latency-insensitive design is presented as the foundation of a new correct-by-construction methodology to design complex systems by assembling intellectual property components. Latency-insensitive designs are synchronous distributed systems and are realized by composing functional modules that exchange data on communication channels according to an appropriate protocol. The protocol works on the assumption that the modules are stallable, a weak condition to ask them to obey. The goal of the protocol is to guarantee that latency-insensitive designs composed of functionally correct modules behave correctly independently of the channel latencies. This allows us to increase the robustness of a design implementation because any delay variations of a channel can be "recovered" by changing the channel latency while the overall system functionality remains unaffected. As a consequence, an important application of the proposed theory is represented by the latency-insensitive methodology to design large digital integrated circuits by using deep submicrometer technologies.Index Terms-Deep submicrometer design, formal methods, latency-insensitive protocols, system design.
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