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Hardware Design Verification: Simulation and Formal Method-Based Approaches
Publisher: Prentice Hall PTR
Pub Date: March 03, 2005
ISBN: 0-13-143347-4
Pages: 624
The Practical, Start-to-Finish Guide to Modern Digital Design Verification
As digital logic designs grow larger and more complex, functional verification has become the number one bottleneck in the design process. Reducing verification time is crucial to project success, yet many practicing engineers have had little formal training in verification, and little exposure to the newest solutions. Hardware Design Verification systematically presents today's most valuable simulation-based and formal verification techniques, helping test and design engineers choose the best approach for each project, quickly gain confidence in their designs, and move into fabrication far more rapidly. College students will find that coverage of verification principles and common industry practices will help them prepare for jobs as future verification engineers.
Author William K. Lam, one of the world's leading experts in design verification, is a recent winner of the Chairman's Award for Innovation, Sun Microsystems' most prestigious technical achievement award. Drawing on his wide-ranging experience, he introduces the foundational principles of verification, presents traditional techniques that have survived the test of time, and introduces emerging techniques for today's most challenging designs. Throughout, Lam emphasizes practical examples rather than mathematical proofs; wherever advanced math is essential, he explains it clearly and accessibly.
Coverage includes
Simulation-based versus formal verification: advantages, disadvantages, and tradeoffs
Coding for verification: functional and timing correctness, syntactical and structure checks, simulation performance, and more
Simulator architectures and operations, including event-driven, cycle-based, hybrid, and hardware-based simulators
Testbench organization, design, and tools: creating a fast, efficient test environment
Test scenarios and assertion: planning, test cases, test generators, commercial and Verilog assertions, and more
Ensuring complete coverage, including code, parameters, functions, items, and cross-coverage
The verification cycle: failure capture, scope reduction, bug tracking, simulation data dumping, isolation of underlying causes, revision control, regression, release mechanisms, and tape-out criteria
An accessible introduction to the mathematics and algorithms of formal verification, from Boolean functions to state-machine equivalence and graph algorithms
Decision diagrams, equivalence checking, and symbolic simulation
Model checking and symbolic computation
Simply put, Hardware Design Verification will help you improve and accelerate your entire verification processfrom planning through tape-outso you can get to market faster with higher quality designs.
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