A Discipline for Software Engineering
This new work from Watts Humphrey, author of the influential book, Managing the Software Process, broadens his orderly view of software process management, and lays the foundation for a disciplined approach to software engineering. In his earlier book, the author developed concrete methods for managing software development and maintenance. These methods, now commonly practiced in industry, provide programmers and managers with specific steps they can take to evaluate and improve their software capabilities. In this new book, Humphrey scales those methods down to a personal level, helping software engineers develop the skills and habits needed to plan, track, and analyze large, complex projects.
Humphrey and others have used material from this book to train professionals and students around the world in a projects-oriented software engineering course. First establishing the need for discipline in software engineering, and the benefits to practitioners of learning how to manage their personal software process, Humphrey then develops a model that they can use to monitor, test, and improve their work. Examples drawn from industry enhance the practical focus of the book, while project exercises give readers the opportunity to practice software process management as they learn it.
Features: presents concepts and methods for a disciplined software engineering process; scales down industrial practices for planning, tracking, analysis, and defect management to fit the needs of small-scale program development; and shows how small project disciplines provide a solid base for larger projects.
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THE PERSONAL SOFTWARE PROCESS STRATEGY
THE BASELINE PERSONAL PROCESS
PLANNING I THE PLANNING PROCESS
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Actual To Date Appendix calculate changed LOC Chapter CLEARSPACES Coding Standard complete correlation costs count Cumulative cycle dataset Date To Date Defect Recording Log Defect Type defects found defects injected defects removed defined deleted described Design Review earned value EmptySet ensure enter error Estimating Template example Exit Criteria First&Only Fix Defect functions high-level design historical data implementation Input Karnaugh map KLOC linear regression ListPosition ListState logic measure methods modified normal distribution number of defects parameters Pareto distribution percent Personal Software Process Postmortem prediction interval problem procedure process improvement Program Number Project Plan Summary PSP0 PSP1 PSP2 PSP3 requirements statement result reuse Schedule Planning Templates Script shown in Fig shown in Table small programs Software Engineering software process Specification Template standard deviation step strategy Student task Test Report Template tion Total Development Total LOC track unit test verification yield