Turn thoughts and words into real, concrete progress to a new goal In the newly revised 10th Anniversary Edition of Stop Talking, Start Doing: A Kick in the Pants in Six Parts, accomplished entrepreneur Shaa Wasmund delivers a powerful call to action for anyone looking to kick their life into high gear and start realizing their wildest dreams. In the book, you'll learn to harness that nagging feeling that you should be doing something more and turn it into a positive force for change. You'll move from words and thoughts to concrete actions, putting your fears and anxieties in their place and focusing on the rewards that await you right around the corner. An inspiring, can't-miss prescription for turning those hopes and dreams into reality, Stop Talking, Start Doing offers a powerful guide to help you take that all-important first step on your new journey.

This volume presents a cultural history of Alex Haley’s Roots, examining the strategy and tactics Haley employed in developing a family origin story into an acclaimed national history. More than an investigation into Alex Haley’s legacy, Identifying Roots unearths the politics of beginnings and belongings. While we all come from somewhere, this book examines the terms on which our roots can work as a tradition to embrace rather than a past to leave behind. And it investigates why some of the texts we read also seem to read us back. Identifying Roots invites readers to reimagine the way we tell stories. A provocative study that draws upon Black studies, the history of religions, and anthropology, the book underscores the social drama and dynamics that define our scriptures. Nimbly moving between the stories of Alex Haley, his characters, and the world that received them, Newton reminds us that our roots are stories of consequence.

3. 2 Input Encoding Targeting Two-Level Logic . . . . . . . . 27 3. 2. 1 One-Hot Coding and Multiple-Valued Minimization 28 3. 2. 2 Input Constraints and Face Embedding 30 3. 3 Satisfying Encoding Constraints . . . . . . . 32 3. 3. 1 Definitions . . . . . . . . . . . . . . . 32 3. 3. 2 Column-Based Constraint Satisfaction 33 3. 3. 3 Row-Based Constraint Satisfaction . . 37 3. 3. 4 Constraint Satisfaction Using Dichotomies . 38 3. 3. 5 Simulated Annealing for Constraint Satisfaction 41 3. 4 Input Encoding Targeting Multilevel Logic. . 43 3. 4. 1 Kernels and Kernel Intersections . . . 44 3. 4. 2 Kernels and Multiple-Valued Variables 46 3. 4. 3 Multiple-Valued Factorization. . . . . 48 3. 4. 4 Size Estimation in Algebraic Decomposition . 53 3. 4. 5 The Encoding Step . 54 3. 5 Conclusion . . . . . . . . . 55 4 Encoding of Symbolic Outputs 57 4. 1 Heuristic Output Encoding Targeting Two-Level Logic. 59 4. 1. 1 Dominance Relations. . . . . . . . . . . . . . . . 59 4. 1. 2 Output Encoding by the Derivation of Dominance Relations . . . . . . . . . . . . . . . . . . . . . 60 . . 4. 1. 3 Heuristics to Minimize the Number of Encoding Bits . . . . . . . . . . . . 64 4. 1. 4 Disjunctive Relationships . . . . . . . . . . . 65 4. 1. 5 Summary . . . . . . . . . . . . . . . . . . 66 . . 4. 2 Exact Output Encoding Targeting Two-Level Logic. 66 4. 2. 1 Generation of Generalized Prime Implicants . 68 4. 2. 2 Selecting a Minimum Encodeable Cover . . . 68 4. 2. 3 Dominance and Disjunctive Relationships to S- isfy Constraints . . . . . . . . . . . 70 4. 2. 4 Constructing the Optimized Cover 73 4. 2. 5 Correctness of the Procedure . . 73 4. 2. 6 Multiple Symbolic Outputs . . .

In order to design and build computers that achieve and sustain high performance, it is essential that reliability issues be considered care fully. The problem has several aspects. Certainly, considering reliability implies that an engineer must be able to analyze how design decisions affect the incidence of failure. For instance, in order design reliable inte gritted circuits, it is necessary to analyze how decisions regarding design rules affect the yield, i.e., the percentage of functional chips obtained by the manufacturing process. Of equal importance in producing reliable computers is the detection of failures in its Very Large Scale Integrated (VLSI) circuit components, caused by errors in the design specification, implementation, or manufacturing processes. Design verification involves the checking of the specification of a design for correctness prior to carrying out an implementation. Implementation verification ensures that the manual design or automatic synthesis process is correct, i.e., the mask-level description correctly implements the specification. Manufacture test involves the checking of the complex fabrication process for correctness, i.e., ensuring that there are no manufacturing defects in the integrated circuit. It should be noted that all the above verification mechanisms deal not only with verifying the functionality of the integrated circuit but also its performance."

When it comes to frameworks, the familiar story of the elephant and the six blind philosophers seems to apply. As each philoso pher encountered a separate part of the elephant, each pronounced his considered, but flawed judgement. One blind philosopher felt a leg and thought it a tree. Another felt the tail and thought he held a rope. Another felt the elephant's flank and thought he stood before a wall. We're supposed to learn about snap judgements from this alle gory, but its author might well have been describing design automation frameworks. For in the reality of today's product development requirements, a framework must be many things to many people. xiv CAD Frameworks: Integration Technology for CAD As the authors of this book note, framework design is an optimi zation problem. Somehow, it has to be both a superior rope for one and a tremendous tree for another. Somehow it needs to provide a standard environment for exploiting the full potential of computer-aided engineering tools. And, somehow, it has to make real such abstractions as interoperability and interchangeability. For years, we've talked about a framework as something that provides application-oriented services, just as an operating system provides system-level support. And for years, that simple statement has hid the tremendous complexity of actually providing those services.

Our purpose in writing this book was two-fold. First, we wanted to compile a chronology of the research in the field of mixed-mode simulation over the last ten to fifteen years. A substantial amount of work was done during this period of time but most of it was published in archival form in Masters theses and Ph. D. dissertations. Since the interest in mixed-mode simulation is growing, and a thorough review of the state-of-the-art in the area was not readily available, we thought it appropriate to publish the information in the form of a book. Secondly, we wanted to provide enough information to the reader so that a proto type mixed-mode simulator could be developed using the algorithms in this book. The SPLICE family of programs is based on the algorithms and techniques described in this book and so it can also serve as docu mentation for these programs. ACKNOWLEDGEMENTS The authors would like to dedicate this book to Prof. D. O. Peder son for inspiring this research work and for providing many years of support and encouragement The authors enjoyed many fruitful discus sions and collaborations with Jim Kleckner, Young Kim, Alberto Sangiovanni-Vincentelli, and Jacob White, and we thank them for their contributions. We also thank the countless others who participated in the research work and read early versions of this book. Lillian Beck provided many useful suggestions to improve the manuscript. Yun cheng Ju did the artwork for the illustrations."

Mixed-Mode Simulation and Analog Multilevel Simulation addresses the problems of simulating entire mixed analog/digital systems in the time-domain. A complete hierarchy of modeling and simulation methods for analog and digital circuits is described. Mixed-Mode Simulation and Analog Multilevel Simulation also provides a chronology of the research in the field of mixed-mode simulation and analog multilevel simulation over the last ten to fifteen years. In addition, it provides enough information to the reader so that a prototype mixed-mode simulator could be developed using the algorithms in this book. Mixed-Mode Simulation and Analog Multilevel Simulation can also be used as documentation for the SPLICE family of mixed-mode programs as they are based on the algorithms and techniques described in this book.

Mixed-Mode Simulation and Analog Multilevel Simulation addresses the problems of simulating entire mixed analog/digital systems in the time-domain. A complete hierarchy of modeling and simulation methods for analog and digital circuits is described. Mixed-Mode Simulation and Analog Multilevel Simulation also provides a chronology of the research in the field of mixed-mode simulation and analog multilevel simulation over the last ten to fifteen years. In addition, it provides enough information to the reader so that a prototype mixed-mode simulator could be developed using the algorithms in this book. Mixed-Mode Simulation and Analog Multilevel Simulation can also be used as documentation for the SPLICE family of mixed-mode programs as they are based on the algorithms and techniques described in this book.

When it comes to frameworks, the familiar story of the elephant and the six blind philosophers seems to apply. As each philoso pher encountered a separate part of the elephant, each pronounced his considered, but flawed judgement. One blind philosopher felt a leg and thought it a tree. Another felt the tail and thought he held a rope. Another felt the elephant's flank and thought he stood before a wall. We're supposed to learn about snap judgements from this alle gory, but its author might well have been describing design automation frameworks. For in the reality of today's product development requirements, a framework must be many things to many people. xiv CAD Frameworks: Integration Technology for CAD As the authors of this book note, framework design is an optimi zation problem. Somehow, it has to be both a superior rope for one and a tremendous tree for another. Somehow it needs to provide a standard environment for exploiting the full potential of computer-aided engineering tools. And, somehow, it has to make real such abstractions as interoperability and interchangeability. For years, we've talked about a framework as something that provides application-oriented services, just as an operating system provides system-level support. And for years, that simple statement has hid the tremendous complexity of actually providing those services."

In order to design and build computers that achieve and sustain high performance, it is essential that reliability issues be considered care fully. The problem has several aspects. Certainly, considering reliability implies that an engineer must be able to analyze how design decisions affect the incidence of failure. For instance, in order design reliable inte gritted circuits, it is necessary to analyze how decisions regarding design rules affect the yield, i.e., the percentage of functional chips obtained by the manufacturing process. Of equal importance in producing reliable computers is the detection of failures in its Very Large Scale Integrated (VLSI) circuit components, caused by errors in the design specification, implementation, or manufacturing processes. Design verification involves the checking of the specification of a design for correctness prior to carrying out an implementation. Implementation verification ensures that the manual design or automatic synthesis process is correct, i.e., the mask-level description correctly implements the specification. Manufacture test involves the checking of the complex fabrication process for correctness, i.e., ensuring that there are no manufacturing defects in the integrated circuit. It should be noted that all the above verification mechanisms deal not only with verifying the functionality of the integrated circuit but also its performance."

3. 2 Input Encoding Targeting Two-Level Logic . . . . . . . . 27 3. 2. 1 One-Hot Coding and Multiple-Valued Minimization 28 3. 2. 2 Input Constraints and Face Embedding 30 3. 3 Satisfying Encoding Constraints . . . . . . . 32 3. 3. 1 Definitions . . . . . . . . . . . . . . . 32 3. 3. 2 Column-Based Constraint Satisfaction 33 3. 3. 3 Row-Based Constraint Satisfaction . . 37 3. 3. 4 Constraint Satisfaction Using Dichotomies . 38 3. 3. 5 Simulated Annealing for Constraint Satisfaction 41 3. 4 Input Encoding Targeting Multilevel Logic. . 43 3. 4. 1 Kernels and Kernel Intersections . . . 44 3. 4. 2 Kernels and Multiple-Valued Variables 46 3. 4. 3 Multiple-Valued Factorization. . . . . 48 3. 4. 4 Size Estimation in Algebraic Decomposition . 53 3. 4. 5 The Encoding Step . 54 3. 5 Conclusion . . . . . . . . . 55 4 Encoding of Symbolic Outputs 57 4. 1 Heuristic Output Encoding Targeting Two-Level Logic. 59 4. 1. 1 Dominance Relations. . . . . . . . . . . . . . . . 59 4. 1. 2 Output Encoding by the Derivation of Dominance Relations . . . . . . . . . . . . . . . . . . . . . 60 . . 4. 1. 3 Heuristics to Minimize the Number of Encoding Bits . . . . . . . . . . . . 64 4. 1. 4 Disjunctive Relationships . . . . . . . . . . . 65 4. 1. 5 Summary . . . . . . . . . . . . . . . . . . 66 . . 4. 2 Exact Output Encoding Targeting Two-Level Logic. 66 4. 2. 1 Generation of Generalized Prime Implicants . 68 4. 2. 2 Selecting a Minimum Encodeable Cover . . . 68 4. 2. 3 Dominance and Disjunctive Relationships to S- isfy Constraints . . . . . . . . . . . 70 4. 2. 4 Constructing the Optimized Cover 73 4. 2. 5 Correctness of the Procedure . . 73 4. 2. 6 Multiple Symbolic Outputs . . .

There's never been a better time, or a more urgent time, to start doing the things you want to do.

Perhaps you feel your career is stuck in a rut - or maybe you're in the wrong job altogether. Or maybe you have a great business idea but something is stopping you from actually getting started. You may already be running a business but struggling to get to it to where you want it to be. Or perhaps you just want to be more successful in general - without knowing exactly what your vision of success is - yet

If you want to do something but secretly fear you're never going to do it, whatever that might be, then this will help you.

"Stop Talking, Start Doing"is a short, clear and cleverly illustrated book that will inspire you to take action. Whatever you want to achieve, this is the kick in the pants you need to get to where you truly want to be.

It's great that you know you can do more, but just thinking about it, won't make it happen. It's doing that makes the difference. DO IT. If you've got something you want to do... "now" is a good time to start.

A practical nine-step productivity guide for turning your dreams into realities When you think of project management, you probably think of business projects and boring meetings. But every project, personal and professional, needs to be properly managed if you expect to turn what you can dream up into a reality you can live. We all have dreams we're passionate about getting ahead at work, starting a business, or even learning to play an instrument but it's difficult to live your dreams without a framework for getting from vision to achievement. Dream It, Do It, Live It offers practical, understandable, and doable guidance on achieving any goal in nine easy steps. With case studies of real people who achieved their own dreams, this easy-to-read illustrated guide will help you focus on the dream you want to make real and the constructive and meaningful steps you can take to today to make that dream happen. * A short, easy-to-read guide full of practical advice and simple steps for getting started on the path to your ultimate goals * Includes an easy-to-follow nine-step system that helps you reach any goal, professional or personal * Ideal for professionals who want to get ahead, entrepreneurs who want to start their own business, hobbyists, and anyone who wants to turn the intangible into the tangible No matter where you want to go in life, there's always a way to get there. Dream It, Do It, Live It gives you the practical, real-world advice you need to set out on the road to your ultimate success.

This book introduces students to the so-called classics of the field from the 19th and 20th centuries, whilst challenging readers to apply a critical lens. Instead of representing scholars and their works as virtually timeless, each contributor provides sufficient background on the classic work in question so that readers not only understand its novelty and place in its own time, but are able to arrive at a critical understanding of whether its approach to studying religion continues to be useful to them today. Scholars discussed include Muller, Durkheim, Freud and Eliade. Fieldnotes in the Critical Study of Religion: Revisiting Classical Theorists therefore offers a novel way into writing both a history and ethnography of the discipline, helping readers to see how it has changed and inviting them to consider what—if anything—endures and thereby unites these diverse authors into a common field.

Clearly structured in 36 short sections, this practical book provides rapid, accessible advice on all the essential management challenges.

" "

Focusing on the manager's key role - managing teams to get things done, this book looks at the essential parts of management from unusual perspectives and different angles.

Structured with the busy manager in mind, you can dip into any section of the book and read it as an individual piece of advice or read it end-to-end to gain an overall picture of management.

"The Project Management Book" addresses the real-life scenarios and issues that anyone responsible for managing a project is likely to face on a day to day basis. It provides solutions to the everyday issues involved in managing projects, including:

Defining your project Understanding your role as a project manager Dealing with external problems Learning from Lean and Six Sigma Delivering projects in times of change It also includes a handy glossay of project management jargon

"The Prince of Preachers to the young." This was what C.H. Spurgeon called Richard Newton, author of this masterful treatment of the The Life of Jesus Christ explained and applied to the young. Volume One: This large double volume begins with The First Gospel Promise in Genesis 3:15 and leads us into the wilderness where Jesus is tempted by the Devil. Richard Newton, D.D. (1813-1887) Though he was born in Liverpool, England in 1813, Newton was educated at the University of Pennsylvania and then served as an Episcopal rector in Philadelphia for many years. In addition to thirty volumes of children's sermons, he wrote Illustrated Rambles in Bible Lands, Five-Minute Talks for the Young, Heroes of the Early Church, Heroes of the Reformation (also published by SGCB).

This volume presents a cultural history of Alex Haley’s Roots, examining the strategy and tactics Haley employed in developing a family origin story into an acclaimed national history. More than an investigation into Alex Haley’s legacy, Identifying Roots unearths the politics of beginnings and belongings. While we all come from somewhere, this book examines the terms on which our roots can work as a tradition to embrace rather than a past to leave behind. And it investigates why some of the texts we read also seem to read us back. Identifying Roots invites readers to reimagine the way we tell stories. A provocative study that draws upon Black studies, the history of religions, and anthropology, the book underscores the social drama and dynamics that define our scriptures. Nimbly moving between the stories of Alex Haley, his characters, and the world that received them, Newton reminds us that our roots are stories of consequence.