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With both cookbook-style examples and in-depth verification background, novice and expert verification engineers will find information to ease their adoption of this emerging Accellera standard.
Based on the highly successful second edition, this extended edition of SystemVerilog for Verification: A Guide to Learning the Testbench Language Features teaches all verification features of the SystemVerilog language, providing hundreds of examples to clearly explain the concepts and basic fundamentals. It contains materials for both the full-time verification engineer and the student learning this valuable skill. In the third edition, authors Chris Spear and Greg Tumbush start with how to verify a design, and then use that context to demonstrate the language features, including the advantages and disadvantages of different styles, allowing readers to choose between alternatives. This textbook contains end-of-chapter exercises designed to enhance students’ understanding of the material. Other features of this revision include: New sections on static variables, print specifiers, and DPI from the 2009 IEEE language standard Descriptions of UVM features such as factories, the test registry, and the configuration database Expanded code samples and explanations Numerous samples that have been tested on the major SystemVerilog simulators SystemVerilog for Verification: A Guide to Learning the Testbench Language Features, Third Edition is suitable for use in a one-semester SystemVerilog course on SystemVerilog at the undergraduate or graduate level. Many of the improvements to this new edition were compiled through feedback provided from hundreds of readers.
The UVM Primer uses simple, runnable code examples, accessible analogies, and an easy-to-read style to introduce you to the foundation of the Universal Verification Methodology. You will learn the basics of object-oriented programming with SystemVerilog and build upon that foundation to learn how to design testbenches using the UVM. Use the UVM Primer to brush up on your UVM knowledge before a job interview to be able to confidently answer questions such as "What is a uvm_agent?," "How do you use uvm_sequences?," and "When do you use the UVM's factory." The UVM Primer's downloadable code examples give you hands-on experience with real UVM code. Ray Salemi uses online videos (on www.uvmprimer.com) to walk through the code from each chapter and build your confidence. Read The UVM Primer today and start down the path to the UVM.
Getting Started with UVM: A Beginner's Guide is an introductory text for digital verification (and design) engineers who need to ramp up on the Universal Verification Methodology quickly. The book is filled with working examples and practical explanations that go beyond the User's Guide.
The Universal Verification Methodology is an industry standard used by many companies for verifying ASIC devices. It has now become an IEEE standard IEEE 1800.2. This book provides step-by-step instructions, coding guidelines and debugging features of UVM explained clearly using examples. It also contains porting instructions from UVM 1.2 to UVM 1800.2 along with detailed explanations of many new features in the latest release of UVM. The Table of Contents, Preface, and detailed information on this book is available on www.uvmbook.com.
The field of educational technology is exploding in terms of innovations being developed daily. Most of these innovations hold fascinating promise but enjoy almost no empirical support. There are educational researchers who have both developed innovations and tested their potential empirically. This book will capture the latest and most promising innovations from the leading educational technologists in the world, including animations, simulations, visualizations, navigation, manipulatives, pedagogical agents, and assessment. This book is appropriate for university courses in educational technology for those wishing to showcase the latest innovations that are accompanied by empirical support.
This book describes in detail all required technologies and methodologies needed to create a comprehensive, functional design verification strategy and environment to tackle the toughest job of guaranteeing first-pass working silicon. The author first outlines all of the verification sub-fields at a high level, with just enough depth to allow an engineer to grasp the field before delving into its detail. He then describes in detail industry standard technologies such as UVM (Universal Verification Methodology), SVA (SystemVerilog Assertions), SFC (SystemVerilog Functional Coverage), CDV (Coverage Driven Verification), Low Power Verification (Unified Power Format UPF), AMS (Analog Mixed Signal) verification, Virtual Platform TLM2.0/ESL (Electronic System Level) methodology, Static Formal Verification, Logic Equivalency Check (LEC), Hardware Acceleration, Hardware Emulation, Hardware/Software Co-verification, Power Performance Area (PPA) analysis on a virtual platform, Reuse Methodology from Algorithm/ESL to RTL, and other overall methodologies.
This book provides a hands-on, application-oriented guide to the language and methodology of both SystemVerilog Assertions and SystemVerilog Functional Coverage. Readers will benefit from the step-by-step approach to functional hardware verification using SystemVerilog Assertions and Functional Coverage, which will enable them to uncover hidden and hard to find bugs, point directly to the source of the bug, provide for a clean and easy way to model complex timing checks and objectively answer the question ‘have we functionally verified everything’. Written by a professional end-user of ASIC/SoC/CPU and FPGA design and Verification, this book explains each concept with easy to understand examples, simulation logs and applications derived from real projects. Readers will be empowered to tackle the modeling of complex checkers for functional verification, thereby drastically reducing their time to design and debug. This updated second edition addresses the latest functional set released in IEEE-1800 (2012) LRM, including numerous additional operators and features. Additionally, many of the Concurrent Assertions/Operators explanations are enhanced, with the addition of more examples and figures. · Covers in its entirety the latest IEEE-1800 2012 LRM syntax and semantics; · Covers both SystemVerilog Assertions and SystemVerilog Functional Coverage language and methodologies; · Provides practical examples of the what, how and why of Assertion Based Verification and Functional Coverage methodologies; · Explains each concept in a step-by-step fashion and applies it to a practical real life example; · Includes 6 practical LABs that enable readers to put in practice the concepts explained in the book.
Since its introduction in 2011, the Universal Verification Methodology (UVM) has achieved its promise of becoming the dominant platform for semiconductor design verification. Advanced UVM delivers proven coding guidelines, convenient recipes for common tasks, and cutting-edge techniques to provide a framework within UVM. Once adopted by an organization, these strategies will create immediate benefits, and help verification teams develop scalable, high-performance environments and maximize their productivity. The second edition updates the chained sequencer, re-organizes the content, and has a few minor corrections. "Written by an experienced UVM practitioner, this book contains lots of great tips on using UVM effectively and example code that actually works!" John Aynsley, Doulos "In 'Advanced UVM', Mr. Hunter, based on his company's real world experiences, provides excellent resources, a well-tested reference verification environment, and advanced best practices on how to apply UVM. If you are ready to move beyond a UVM introduction, this should be the book you add to your library." George Taglieri, Director Verification Product Solutions, Synopsys, Inc.
A Web-Based Introduction to Programming is designed for use in introductory programming, programming logic and design, or Web programming courses, and for anyone seeking a painless way to learn the basics of programming by developing small Web applications. The book is clearly written, using consistent examples in every chapter and step-by-step descriptions of standard programming procedures. Each chapter follows precise learning outcomes that are accurately tested by the end-of-chapter quizzes and exercises. A Web-Based Introduction to Programming keeps the focus on the need for beginning programmers to learn essential syntax and control structures with minimal complexity. Each chapter focuses on a single topic and related material is provided in appendices. Students learn to convert requirements into algorithms, and then develop small Web-based applications using a combination of PHP and HTML. The chapter code exercises are designed to skill and confidence step-by-step: Fixit exercises provide small programs that include a single error of some kind and help students develop their problem-solving abilities and debugging skills. Modify exercises provide working programs that must be modified to perform a somewhat different or additional function. These exercises test student's ability to read, understand, and adapt existing code. Code completion exercises allow students to apply all concepts and tools covered in the chapter by developing new applications. All required software is provided and can be installed quickly and easily in minutes under Windows, Macintosh OS X or Linux. The software can be installed entirely on a USB drive so that students can carry their entire work environment with them (no need for special classroom installation). Significant changes to the second edition include: the latest version of the standalone Web server; even more code examples; additional code exercises for each chapter; flow chart examples to help explain control structures; more in-depth coverage of associative arrays and Web sessions; more extensive discussion of include files; additional references to emerging technologies. The Web site www.mikeokane.com/textbooks/WebTech/ includes all materials found on the CD, and also provides access to additional exercises, test banks, slide presentations, quiz solutions, code solutions, and other instructional resources. "This is the best logic book I have ever had in over 25 years of teaching!" -- Bob Husson, Craven Community College "I teach intro to programming and algorithms and I have used this book for three terms. It is excellent. The book's content leads students through the examples in a natural way that makes learning traditional programming concepts easy and students retain the concepts. The coding exercises build upon each other from algorithms all the way through small PHP programs. As a teacher I highly recommend this book for students and instructors alike." --Charlie Wallin, Asheville-Buncombe Technical Community College "The textbook, A Web-Base Introduction to Programming, was my first exposure to PHP. I could not have asked for a better introduction. The explanations, examples, and order of topics covered, made teaching and learning the basics of PHP a simple process. My students found the exercises and assignments at the end of each chapter fun but challenging. My only regret is that I did not discover this book sooner." -- Joe Sherrill, Martin Community College (retired)