Theory of Computational Complexity
Theory of Computational Complexity by Ding-Zhu Du, published by John Wiley & Sons on June 30, 2014, is a comprehensive resource that delves into the principles and applications of computational complexity theory. This second edition has been thoroughly revised to incorporate recent advancements in the field and feedback from readers, ensuring that it remains a relevant reference for understanding modern computational challenges.
Readers will find an extensive examination of various topics, including computational models, decision tree complexity, and NP-completeness theory. The book also includes a new combinatorial proof of the PCP theorem and offers additional exercises to enhance comprehension. With detailed literature reviews at the end of each chapter, this edition serves as a valuable textbook for graduate-level courses and a useful reference for professionals in computer science, engineering, and mathematics.
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Praise for the First Edition
“… complete, up-to-date coverage of computational complexity theory…the book promises to become the standard reference on computational complexity.”
—Zentralblatt MATH
A thorough revision based on advances in the field of computational complexity and readers’ feedback, the Second Edition of Theory of Computational Complexity presents updates to the principles and applications essential to understanding modern computational complexity theory. The new edition continues to serve as a comprehensive resource on the use of software and computational approaches for solving algorithmic problems and the related difficulties that can be encountered.
Maintaining extensive and detailed coverage, Theory of Computational Complexity, Second Edition, examines the theory and methods behind complexity theory, such as computational models, decision tree complexity, circuit complexity, and probabilistic complexity. The Second Edition also features recent developments on areas such as NP-completeness theory, as well as:
- A new combinatorial proof of the PCP theorem based on the notion of expander graphs, a research area in the field of computer science
- Additional exercises at varying levels of difficulty to further test comprehension of the presented material
- End-of-chapter literature reviews that summarize each topic and offer additional sources for further study
Theory of Computational Complexity, Second Edition, is an excellent textbook for courses on computational theory and complexity at the graduate level. The book is also a useful reference for practitioners in the fields of computer science, engineering, and mathematics who utilize state-of-the-art software and computational methods to conduct research.
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