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Formal Methods in Computer-Aided Design : Third International Conference, FMCAD 2000 Austin, TX, USA, November 1-3, 2000 Proceedings / edited by Warren A. Jr. Hunt, Steven D. Johnson.

LIBRA Q341 .P7 2004
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Format:
Book
Contributor:
Hunt, Warren A. Jr., editor.
Johnson, Steven D. (Steven Dexter), editor.
SpringerLink (Online service)
Series:
Computer Science (Springer-11645)
Lecture notes in computer science 0302-9743 ; 1954.
Lecture Notes in Computer Science, 0302-9743 ; 1954
Language:
English
Subjects (All):
Computer-aided engineering.
Computer hardware.
Computer logic.
Logic, Symbolic and mathematical.
Artificial intelligence.
Computational complexity.
Computer-Aided Engineering (CAD, CAE) and Design.
Computer Hardware.
Logics and Meanings of Programs.
Mathematical Logic and Formal Languages.
Artificial Intelligence.
Complexity.
Local Subjects:
Computer-Aided Engineering (CAD, CAE) and Design.
Computer Hardware.
Logics and Meanings of Programs.
Mathematical Logic and Formal Languages.
Artificial Intelligence.
Complexity.
Physical Description:
1 online resource (XII, 552 pages).
Edition:
First edition 2000.
Contained In:
Springer eBooks
Place of Publication:
Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2000.
System Details:
text file PDF
Summary:
The biannual Formal Methods in Computer Aided Design conference (FMCAD 2000)is the third in a series of conferences under that title devoted to the use of discrete mathematical methods for the analysis of computer hardware and so- ware. The work reported in this book describes the use of modeling languages and their associated automated analysis tools to specify and verify computing systems. Functional veric ation has become one of the principal costs in a modern computer design e ort. In addition,verica tion of circuit models, timing,power, et cetera, requires even more eo rt. FMCAD provides a venue for academic and - dustrial researchers and practitioners to share their ideas and experiences of using discrete mathematical modeling and veric ation. It is noted with interest by the conference chairmen how this area has grown from just a few people 15 years ago to a vibrant area of research, development, and deployment. It is clear that these methods are helping reduce the cost of designing computing systems. As an example of this potential cost reduction, we have invited David Russino of Advanced Micro Devices, Incorporated to describe his veric ation of ?oating-point - gorithms being used in AMD microprocessors. The program includes 30 regular presentations selected from 63 submitted papers.
Contents:
Applications of Hierarchical Verification in Model Checking
Applications of Hierarchical Verification in Model Checking
Invited Talk
Trends in Computing
Invited Paper
A Case Study in Formal Verification of Register-Transfer Logic with ACL2: The Floating Point Adder of the AMD Athlon TM Processor
Contributed Papers
An Algorithm for Strongly Connected Component Analysis in n log n Symbolic Steps
Automated Refinement Checking for Asynchronous Processes
Border-Block Triangular Form and Conjunction Schedule in Image Computation
B2M: A Semantic Based Tool for BLIF Hardware Descriptions
Checking Safety Properties Using Induction and a SAT-Solver
Combining Stream-Based and State-Based Verification Techniques
A Comparative Study of Symbolic Algorithms for the Computation of Fair Cycles
Correctness of Pipelined Machines
Do You Trust Your Model Checker?
Executable Protocol Specification in ESL
Formal Verification of Floating Point Trigonometric Functions
Hardware Modeling Using Function Encapsulation
A Methodology for the Formal Analysis of Asynchronous Micropipelines
A Methodology for Large-Scale Hardware Verification
Model Checking Synchronous Timing Diagrams
Model Reductions and a Case Study
Modeling and Parameters Synthesis for an Air TrafficManagement System
Monitor-Based Formal Specification of PCI
SAT-Based Image Computation with Application in Reachability Analysis
SAT-Based Verification without State Space Traversal
Scalable Distributed On-the-Fly Symbolic Model Checking
The Semantics of Verilog Using Transition System Combinators
Sequential Equivalence Checking by Symbolic Simulation
Speeding Up Image Computation by Using RTL Information
Symbolic Checking of Signal-Transition Consistency for Verifying High-Level Designs
Symbolic Simulation with Approximate Values
A Theory of Consistency for Modular Synchronous Systems
Verifying Transaction Ordering Properties in Unbounded Bus Networks through Combined Deductive/Algorithmic Methods
Visualizing System Factorizations with Behavior Tables.
Other Format:
Printed edition:
ISBN:
978-3-540-40922-9
9783540409229
Access Restriction:
Restricted for use by site license.

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