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Not very often people challenge the definition of testing and even if they do, it ends up being theory. Here is an experience report, documented with evidence on what it takes to use testing to drive growth for customers. An outcome of a thousand people of Moolya and hundreds of customers coming together and providing the most compelling evidence to reinvent testing. A powerful (and honest) book for Product Owners, Tech Leaders, Testers, Automation Engineers to build a culture of growth driven testing and leadership that enables this culture to succeed.
Based on extensive research and the authors' combined thirty years of experience, Discovery-Driven Growth provides a breakthrough system for managing strategic growth. You will learn how to identify and prioritize your company's full portfolio of opportunities - from new product lines to entirely new businesses. The authors then show how to best execute specific initiatives, test major project assumptions, and develop a culture that values disciplined experimentation and learning over meeting mindless and unrealistic goals. Tools for dealing with each challenge are backed by examples from companies, from small firms to global giants, that have successfully put these methods into practice.
Test-Driven Development (TDD) is now an established technique for delivering better software faster. TDD is based on a simple idea: Write tests for your code before you write the code itself. However, this "simple" idea takes skill and judgment to do well. Now there's a practical guide to TDD that takes you beyond the basic concepts. Drawing on a decade of experience building real-world systems, two TDD pioneers show how to let tests guide your development and “grow” software that is coherent, reliable, and maintainable. Steve Freeman and Nat Pryce describe the processes they use, the design principles they strive to achieve, and some of the tools that help them get the job done. Through an extended worked example, you’ll learn how TDD works at multiple levels, using tests to drive the features and the object-oriented structure of the code, and using Mock Objects to discover and then describe relationships between objects. Along the way, the book systematically addresses challenges that development teams encounter with TDD—from integrating TDD into your processes to testing your most difficult features. Coverage includes Implementing TDD effectively: getting started, and maintaining your momentum throughout the project Creating cleaner, more expressive, more sustainable code Using tests to stay relentlessly focused on sustaining quality Understanding how TDD, Mock Objects, and Object-Oriented Design come together in the context of a real software development project Using Mock Objects to guide object-oriented designs Succeeding where TDD is difficult: managing complex test data, and testing persistence and concurrency
The definitive playbook by the pioneers of Growth Hacking, one of the hottest business methodologies in Silicon Valley and beyond. It seems hard to believe today, but there was a time when Airbnb was the best-kept secret of travel hackers and couch surfers, Pinterest was a niche web site frequented only by bakers and crafters, LinkedIn was an exclusive network for C-suite executives and top-level recruiters, Facebook was MySpace’s sorry step-brother, and Uber was a scrappy upstart that didn’t stand a chance against the Goliath that was New York City Yellow Cabs. So how did these companies grow from these humble beginnings into the powerhouses they are today? Contrary to popular belief, they didn’t explode to massive worldwide popularity simply by building a great product then crossing their fingers and hoping it would catch on. There was a studied, carefully implemented methodology behind these companies’ extraordinary rise. That methodology is called Growth Hacking, and it’s practitioners include not just today’s hottest start-ups, but also companies like IBM, Walmart, and Microsoft as well as the millions of entrepreneurs, marketers, managers and executives who make up the community of Growth Hackers. Think of the Growth Hacking methodology as doing for market-share growth what Lean Start-Up did for product development, and Scrum did for productivity. It involves cross-functional teams and rapid-tempo testing and iteration that focuses customers: attaining them, retaining them, engaging them, and motivating them to come back and buy more. An accessible and practical toolkit that teams and companies in all industries can use to increase their customer base and market share, this book walks readers through the process of creating and executing their own custom-made growth hacking strategy. It is a must read for any marketer, entrepreneur, innovator or manger looking to replace wasteful big bets and "spaghetti-on-the-wall" approaches with more consistent, replicable, cost-effective, and data-driven results.
Quite simply, test-driven development is meant to eliminate fear in application development. While some fear is healthy (often viewed as a conscience that tells programmers to "be careful!"), the author believes that byproducts of fear include tentative, grumpy, and uncommunicative programmers who are unable to absorb constructive criticism. When programming teams buy into TDD, they immediately see positive results. They eliminate the fear involved in their jobs, and are better equipped to tackle the difficult challenges that face them. TDD eliminates tentative traits, it teaches programmers to communicate, and it encourages team members to seek out criticism However, even the author admits that grumpiness must be worked out individually! In short, the premise behind TDD is that code should be continually tested and refactored. Kent Beck teaches programmers by example, so they can painlessly and dramatically increase the quality of their work.
From the renowned psychologist who introduced the world to “growth mindset” comes this updated edition of the million-copy bestseller—featuring transformative insights into redefining success, building lifelong resilience, and supercharging self-improvement. “Through clever research studies and engaging writing, Dweck illuminates how our beliefs about our capabilities exert tremendous influence on how we learn and which paths we take in life.”—Bill Gates, GatesNotes “It’s not always the people who start out the smartest who end up the smartest.” After decades of research, world-renowned Stanford University psychologist Carol S. Dweck, Ph.D., discovered a simple but groundbreaking idea: the power of mindset. In this brilliant book, she shows how success in school, work, sports, the arts, and almost every area of human endeavor can be dramatically influenced by how we think about our talents and abilities. People with a fixed mindset—those who believe that abilities are fixed—are less likely to flourish than those with a growth mindset—those who believe that abilities can be developed. Mindset reveals how great parents, teachers, managers, and athletes can put this idea to use to foster outstanding accomplishment. In this edition, Dweck offers new insights into her now famous and broadly embraced concept. She introduces a phenomenon she calls false growth mindset and guides people toward adopting a deeper, truer growth mindset. She also expands the mindset concept beyond the individual, applying it to the cultures of groups and organizations. With the right mindset, you can motivate those you lead, teach, and love—to transform their lives and your own.
Fasteners Manufacturing 1. Market Overview: The fasteners manufacturing industry is a crucial component of the global manufacturing and construction sectors. Fasteners are essential in joining and securing various components in machinery, automotive, construction, aerospace, and other industries. The global fasteners market has witnessed steady growth due to the increasing demand for durable and reliable fastening solutions across industries. 2. Market Segmentation: The fasteners manufacturing market can be segmented as follows: a. Product Type: • Bolts • Screws • Nuts • Rivets • Washers • Others b. Material: • Steel • Aluminum • Brass • Plastic • Others c. End-Use Industry: • Automotive • Construction • Aerospace • Electronics • Energy • Industrial Machinery • Others 3. Regional Analysis: The global fasteners market is distributed across several regions: • North America: High demand due to the automotive and construction industries. • Europe: Strong market presence, especially in automotive manufacturing. • Asia-Pacific: Dominant due to rapid industrialization and construction activities. • Middle East and Africa: Steady growth driven by infrastructure development. • Latin America: Increasing demand in the construction and aerospace sectors. 4. Market Drivers: • Global Infrastructure Development: Increasing construction activities worldwide drive demand for fasteners. • Automotive Industry Growth: The automotive industry's expansion fuels demand for high-quality fasteners. • Industrialization: Ongoing industrialization in emerging markets boosts the manufacturing sector. • Aerospace Advancements: Advancements in aerospace technologies require specialized fasteners. 5. Market Challenges: • Fluctuating Raw Material Prices: The fasteners industry is sensitive to fluctuations in metal and alloy prices. • Environmental Regulations: Compliance with environmental regulations poses challenges in material usage and disposal. • Intense Competition: The market is highly competitive, leading to price wars. 6. Opportunities: • Customization: Meeting specific industry needs with tailor-made fasteners. • Eco-friendly Solutions: Developing sustainable and recyclable fasteners. • Digitalization: Embracing Industry 4.0 for improved production processes. 7. Future Outlook: The fasteners manufacturing industry is expected to continue its growth trajectory, driven by global economic recovery, infrastructure investments, and technological advancements. The market is likely to witness an increasing shift toward lightweight materials and sustainable fastening solutions. Conclusion: The global fasteners manufacturing industry is a vital part of various sectors, ensuring the safety and reliability of products worldwide. With a diverse range of products, materials, and end-use industries, the market offers opportunities for innovation and growth. However, it also faces challenges related to raw material prices and environmental regulations. To stay competitive, companies should focus on customization, sustainability, and digitalization to meet the evolving demands of industries worldwide. The future of fasteners manufacturing looks promising as it continues to adapt to the changing global landscape.
Offers a practical guide for improving schools dramatically that will enable all students from all backgrounds to achieve at high levels. Includes assessment forms, an index, and a DVD.
Numerical software is used to test scientific theories, design airplanes and bridges, operate manufacturing lines, control power plants and refineries, analyze financial derivatives, identify genomes, and provide the understanding necessary to derive and analyze cancer treatments. Because of the high stakes involved, it is essential that results computed using software be accurate, reliable, and robust. Unfortunately, developing accurate and reliable scientific software is notoriously difficult. This book investigates some of the difficulties related to scientific computing and provides insight into how to overcome them and obtain dependable results. The tools to assess existing scientific applications are described, and a variety of techniques that can improve the accuracy and reliability of newly developed applications is discussed. Accuracy and Reliability in Scientific Computing can be considered a handbook for improving the quality of scientific computing. It will help computer scientists address the problems that affect software in general as well as the particular challenges of numerical computation: approximations occurring at all levels, continuous functions replaced by discretized versions, infinite processes replaced by finite ones, and real numbers replaced by finite precision numbers. Divided into three parts, it starts by illustrating some of the difficulties in producing robust and reliable scientific software. Well-known cases of failure are reviewed and the what and why of numerical computations are considered. The second section describes diagnostic tools that can be used to assess the accuracy and reliability of existing scientific applications. In the last section, the authors describe a variety of techniques that can be employed to improve the accuracy and reliability of newly developed scientific applications. The authors of the individual chapters are international experts, many of them members of the IFIP Working Group on Numerical Software.