04979nam a22005295i 4500001001800000003000900018005001700027007001500044008004100059020001800100024003100118050001600149072001600165072002300181082002100204245021200225264006100437300003400498336002600532337002600558338003600584347002400620490005800644505201500702520106802717650002203785650002303807650002603830650002003856650002403876650003203900650002803932650002203960650005403982650002304036650002604059650003704085650004504122650002804167700003004195700003204225710003404257773002004291776003604311830005804347856004404405978-3-540-36126-8DE-He21320170515111537.0cr nn 008mamaa121227s2002 gw | s |||| 0|eng d a97835403612687 a10.1007/3-540-36126-X2doi 4aTA345-345.5 7aUGC2bicssc 7aCOM0070002bisacsh04a620.0042028522310aFormal Methods in Computer-Aided Designh[electronic resource] :b4th International Conference, FMCAD 2002 Portland, OR, USA, November 6–8, 2002 Proceedings /cedited by Mark D. Aagaard, John W. O’Leary. 1aBerlin, Heidelberg :bSpringer Berlin Heidelberg,c2002. aXII, 408 p.bonline resource. atextbtxt2rdacontent acomputerbc2rdamedia aonline resourcebcr2rdacarrier atext filebPDF2rda1 aLecture Notes in Computer Science,x0302-9743 ;v25170 aAbstraction -- Abstraction by Symbolic Indexing Transformations -- Counter-Example Based Predicate Discovery in Predicate Abstraction -- Automated Abstraction Refinement for Model Checking Large State Spaces Using SAT Based Conflict Analysis -- Symbolic Simulation -- Simplifying Circuits for Formal Verification Using Parametric Representation -- Generalized Symbolic Trajectory Evaluation — Abstraction in Action -- Model Checking: Strongly-Connected Components -- Analysis of Symbolic SCC Hull Algorithms -- Sharp Disjunctive Decomposition for Language Emptiness Checking -- Microprocessor Specification and Verification -- Relating Multi-step and Single-Step Microprocessor Correctness Statements -- Modeling and Verification of Out-of-Order Microprocessors in UCLID -- Decision Procedures -- On Solving Presburger and Linear Arithmetic with SAT -- Deciding Presburger Arithmetic by Model Checking and Comparisons with Other Methods -- Qubos: Deciding Quantified Boolean Logic Using Propositional Satisfiability Solvers -- Model Checking: Reachability Analysis -- Exploiting Transition Locality in the Disk Based Mur? Verifier -- Traversal Techniques for Concurrent Systems -- Model Checking: Fixed Points -- A Fixpoint Based Encoding for Bounded Model Checking -- Using Edge-Valued Decision Diagrams for Symbolic Generation of Shortest Paths -- Verification Techniques and Methodology -- Mechanical Verification of a Square Root Algorithm Using Taylor’s Theorem -- A Specification and Verification Framework for Developing Weak Shared Memory Consistency Protocols -- Model Checking the Design of an Unrestricted, Stuck-at Fault Tolerant, Asynchronous Sequential Circuit Using SMV -- Hardware Description Languages -- Functional Design Using Behavioural and Structural Components -- Compiling Hardware Descriptions with Relative Placement Information for Parametrised Libraries -- Prototyping and Synthesis -- Input/Output Compatibility of Reactive Systems -- Smart Play-out of Behavioral Requirements. aThis volume contains the proceedings of the Fourth Biennial Conference on F- mal Methods in Computer-Aided Design (FMCAD). The conference is devoted to the use of mathematical methods for the analysis of digital hardware c- cuits and systems. The workreported in this bookdescribes the use of formal mathematics and associated tools to design and verify digital hardware systems. Functional veri?cation has become one of the principal costs in a modern computer design e?ort. FMCAD provides a venue for academic and industrial researchers and practitioners to share their ideas and experiences of using - screte mathematical modeling and veri?cation. Over the past 20 years, this area has grown from just a few academic researchers to a vibrant worldwide com- nity of people from both academia and industry. This volume includes 23 papers selected from the 47 submitted papers, each of which was reviewed by at least three program committee members. The history of FMCAD dates backto 1984, when the earliest meetings on this topic occurred as part of IFIP WG10.2. 0aComputer science. 0aComputer hardware. 0aSoftware engineering. 0aComputer logic. 0aMathematical logic. 0aComputer-aided engineering. 0aElectrical engineering.14aComputer Science.24aComputer-Aided Engineering (CAD, CAE) and Design.24aComputer Hardware.24aSoftware Engineering.24aLogics and Meanings of Programs.24aMathematical Logic and Formal Languages.24aElectrical Engineering.1 aAagaard, Mark D.eeditor.1 aO’Leary, John W.eeditor.2 aSpringerLink (Online service)0 tSpringer eBooks08iPrinted edition:z9783540001164 0aLecture Notes in Computer Science,x0302-9743 ;v251740uhttp://dx.doi.org/10.1007/3-540-36126-X