| Introduction to Scheduling Contributor(s): Robert, Yves (Editor), Vivien, Frederic (Editor) |
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ISBN: 1420072730 ISBN-13: 9781420072730 Publisher: CRC Press OUR PRICE: $237.50 Product Type: Hardcover - Other Formats Published: November 2009 Annotation: Reviewing classical methods as well as realistic models and algorithms, this book offers a through introduction to scheduling presented by highly respected experts. It covers fundamental concepts and basic methods, as well as recent research and applications with a special focus on distributed systems and computational grids, Topics covered include online scheduling, stochastic task-resource systems, and platform models. Though the book takes a rigorous approach, it provides enough background to be self-contained and fully accessible to computer scientists, mathematicians, and researchers in related fields. Examples, theorems, and pedagogical proofs are provided to create an interactive learning format. |
| Additional Information |
| BISAC Categories: - Mathematics | Arithmetic - Computers | Client-server Computing - General - Technology & Engineering | Operations Research |
| Dewey: 004.36 |
| LCCN: 2009032786 |
| Series: Chapman & Hall/CRC Computational Science |
| Physical Information: 0.9" H x 6.4" W x 9.3" (1.30 lbs) 333 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: Full of practical examples, Introduction to Scheduling presents the basic concepts and methods, fundamental results, and recent developments of scheduling theory. With contributions from highly respected experts, it provides self-contained, easy-to-follow, yet rigorous presentations of the material. The book first classifies scheduling problems and their complexity and then presents examples that demonstrate successful techniques for the design of efficient approximation algorithms. It also discusses classical problems, such as the famous makespan minimization problem, as well as more recent advances, such as energy-efficient scheduling algorithms. After focusing on job scheduling problems that encompass independent and possibly parallel jobs, the text moves on to a practical application of cyclic scheduling for the synthesis of embedded systems. It also proves that efficient schedules can be derived in the context of steady-state scheduling. Subsequent chapters discuss scheduling large and computer-intensive applications on parallel resources, illustrate different approaches of multi-objective scheduling, and show how to compare the performance of stochastic task-resource systems. The final chapter assesses the impact of platform models on scheduling techniques. From the basics to advanced topics and platform models, this volume provides a thorough introduction to the field. It reviews classical methods, explores more contemporary models, and shows how the techniques and algorithms are used in practice. |