Principles of verifiable RTL design :a functional coding style supporting verification processes in Verilog

• 作者: Bening, Lionel,
• 其他作者: Foster, Harry,
• 出版: New York : Kluwer Academic ©2002.
• 版本: 2nd ed.
• 稽核項: 1 online resource (xxiii, 281 pages) :illustrations.
• 標題: Very large scale integrationComputer-aided design. , ElectronicsCircuitsVLSI & ULSI. , COMPUTERS , Ordinateurs Conception assistée par ordinateur. , Verilog (Langage de description de matériel informatique) , ElectronicsCircuitsLogic. , Integrated circuits Very large scale integration -- Computer-aided design. , Circuits intégrés à très grande échelle Conception assistée par ordinateur. , Electronic digital computers Computer-aided design. , Integrated circuits , Computer-aided design. , TECHNOLOGY & ENGINEERING Electronics -- Circuits -- Logic. , Verilog (Computer hardware description language) , Ordinateurs , Electronic digital computers , TECHNOLOGY & ENGINEERING , Circuits intégrés à très grande échelle , TECHNOLOGY & ENGINEERING Electronics -- Circuits -- VLSI & ULSI. , COMPUTERS Logic Design. , Electronic books. , Conception assistée par ordinateur. , Logic Design.
• ISBN: 0306476312 , 9780306476310
• ISBN: 0792373685 , 9780792373681
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• 附註: Includes bibliographical references and index. The Verification Process -- Coverage, Events and Assertions -- RTL Methodology Basics -- RTL Logic Simulation -- RTL Formal Verification -- Verifiable RTL Style -- The Bad Stuff -- Verifiable RTL Tutorial -- Principles of Verifiable RTL Design.
• 摘要: The first edition of Principles of Verifiable RTL Design offered a common sense method for simplifying and unifying assertion specification by creating a set of predefined specification modules that could be instantiated within the designer's RTL. Since the release of the first edition, an entire industry-wide initiative for assertion specification has emerged based on ideas presented in the first edition. This initiative, known as the Open Verification Library Initiative (www.verificationlib.org), provides an assertion interface standard that enables the design engineer to capture many interesting properties of the design and precludes the need to introduce new HDL constructs (i.e., extensions to Verilog are not required). Furthermore, this standard enables the design engineer to `specify once, ' then target the same RTL assertion specification over multiple verification processes, such as traditional simulation, semi-formal and formal verification tools. The Open Verification Library Initiative is an empowering technology that will benefit design and verification engineers while providing unity to the EDA community (e.g., providers of testbench generation tools, traditional simulators, commercial assertion checking support tools, symbolic simulation, and semi-formal and formal verification tools). The second edition of Principles of Verifiable RTL Design expands the discussion of assertion specification by including a new chapter entitled `Coverage, Events and Assertions'. All assertions exampled are aligned with the Open Verification Library Initiative proposed standard. Furthermore, the second edition provides expanded discussions on the following topics: start-up verification; the place for 4-state simulation; race conditions; RTL-style-synthesizable RTL (unambiguous mapping to gates); more `bad stuff'. The goal of the second edition is to keep the topic current. Principles of Verifiable RTL Design, A Functional Coding Style Supporting Verification Processes
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