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This book presents scheduling models for parallel processing, problems defined on the grounds of certain scheduling models, and algorithms solving the scheduling problems. It also provides helpful generalizations about scheduling models.
Overview and Goals This book is dedicated to scheduling for parallel processing. Presenting a research ?eld as broad as this one poses considerable dif?culties. Scheduling for parallel computing is an interdisciplinary subject joining many ?elds of science and te- nology. Thus, to understand the scheduling problems and the methods of solving them it is necessary to know the limitations in related areas. Another dif?culty is that the subject of scheduling parallel computations is immense. Even simple search in bibliographical databases reveals thousands of publications on this topic. The - versity in understanding scheduling problems is so great that it seems impossible to juxtapose them in one scheduling taxonomy. Therefore, most of the papers on scheduling for parallel processing refer to one scheduling problem resulting from one way of perceiving the reality. Only a few publications attempt to arrange this ?eld of knowledge systematically. In this book we will follow two guidelines. One guideline is a distinction - tween scheduling models which comprise a set of scheduling problems solved by dedicated algorithms. Thus, the aim of this book is to present scheduling models for parallel processing, problems de?ned on the grounds of certain scheduling models, and algorithms solving the scheduling problems. Most of the scheduling problems are combinatorial in nature. Therefore, the second guideline is the methodology of computational complexity theory. Inthisbookwepresentfourexamplesofschedulingmodels. Wewillgodeepinto the models, problems, and algorithms so that after acquiring some understanding of them we will attempt to draw conclusions on their mutual relationships.
Texte du rabat
To take full advantage of high performance computing, parallel applications must be carefully managed to guarantee quality of service and fairness in using shared resources. Scheduling for parallel computing is an interdisciplinary subject joining many fields, and the broadness of research yields an immense number and diversity of models for understanding scheduling problems.
This focused and useful book presents scheduling models for parallel processing, problems defined on the grounds of certain scheduling models, and algorithms solving the scheduling problems. As most of the scheduling problems are combinatorial in nature, the methodology of computational complexity theory is examined. Four examples of scheduling models are presented, along with problems and algorithms, before drawing conclusions on their mutual relationships. The book also provides helpful generalizations about scheduling models, their problems and algorithms.
Topics and features:
Introduces the fundamental scheduling concepts and clarifies the relation between scheduling models, problems, algorithms, and schedules
Discusses the technological aspects of scheduling for parallel processing, demonstrating how highly abstract scheduling policies are determined by the underlying hardware and software
Presents the notions, concepts, and algorithms that are most immediately applicable in parallel processing, including relevant aspects of classic scheduling theory
Examines the parallel task model, analyzing rigid, moldable, malleable tasks, and tasks with shape
Outlines the methodology of computational complexity theory and introduces the basic metrics of parallel application performance
Explores scheduling with communication delays, taking into account the costs of delays
Examines scheduling divisible loads in systems with limited memory, various interconnection types, and cost of usage
Includes detailed illustrations, a comprehensive bibliography, and a helpful notation section
This unique text will be a valuable resource for researchers in parallel computing, operating systems, management science, and applied mathematics. In addition, lecturers and advanced students needing a solid foundation about scheduling for parallel computing will find the book a critical teaching tool and reference.
Contenu
Basics.- Vision of Scheduling in Parallel Systems.- Classic Scheduling Theory.- Parallel Tasks.- Scheduling with Communication Delays.- Divisible Loads.- Back to Scheduling Models.