Verification Methodology Manual for SystemVerilog
Verification Methodology Manual for SystemVerilog by Janick Bergeron, published by Springer Science & Business Media on September 28, 2005, is a comprehensive resource that addresses the challenges of functional verification in the development of complex system-on-chip (SoC) devices. This edition spans 503 pages and is presented in English. The book discusses the widening gap between design capability and verification confidence, emphasizing the need for a unified approach to verification methodologies in light of the diverse technologies and tools currently available.
Readers will find that this manual serves as a blueprint for establishing a reusable verification environment, leveraging design-for-verification techniques, constrained-random stimulus generation, and coverage-driven verification. It outlines best practices developed by ARM and Synopsys, aiming to consolidate various verification tools into a cohesive platform. This book is suitable for anyone involved in chip design or verification, providing insights into the capabilities of SystemVerilog and equipping SoC development teams with the knowledge necessary to ensure the functionality of their designs in real-world applications.
Official synopsis Publisher
Functional verification remains one of the single biggest challenges in the development of complex system-on-chip (SoC) devices. Despite the introduction of successive new technologies, the gap between design capability and verification confidence continues to widen. The biggest problem is that these diverse new technologies have led to a proliferation of verification point tools, most with their own languages and methodologies.
Fortunately, a solution is at hand. SystemVerilog is a unified language that serves both design and verification engineers by including RTL design constructs, assertions and a rich set of verification constructs. SystemVerilog is an industry standard that is well supported by a wide range of verification tools and platforms. A single language fosters the development of a unified simulation-based verification tool or platform.
Consolidation of point tools into a unified platform and convergence to a unified language enable the development of a unified verification methodology that can be used on a wide range of SoC projects. ARM and Synopsys have worked together to define just such a methodology in the Verification Methodology Manual for SystemVerilog. This book is based upon best verification practices by ARM, Synopsys and their customers.
Verification Methodology Manual for SystemVerilog is a blueprint for verification success, guiding SoC teams in building a reusable verification environment taking full advantage of design-for-verification techniques, constrained-random stimulus generation, coverage-driven verification, formal verification and other advanced technologies to help solve their current and future verification problems.
This book is appropriate for anyone involved in the design or verification of a complex chip or anyone who would like to know more about the capabilities of SystemVerilog. Following the Verification Methodology Manual for SystemVerilog will give SoC development teams and project managers the confidence needed to tape out a complex design, secure in the knowledge that the chip will function correctly in the real world.
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