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Interconnection Networks and Mapping and Scheduling Parallel Computations
 
Edited by: D. Frank Hsu Fordham University, Bronx, NY
Arnold L. Rosenberg University of Massachusetts, Amherst, MA
Dominique Sotteau University of Paris XI, Orsay, France
A co-publication of the AMS and DIMACS
Interconnection Networks and Mapping and Scheduling Parallel Computations
Hardcover ISBN:  978-0-8218-0238-0
Product Code:  DIMACS/21
List Price: $108.00
MAA Member Price: $97.20
AMS Member Price: $86.40
eBook ISBN:  978-1-4704-3979-8
Product Code:  DIMACS/21.E
List Price: $101.00
MAA Member Price: $90.90
AMS Member Price: $80.80
Hardcover ISBN:  978-0-8218-0238-0
eBook: ISBN:  978-1-4704-3979-8
Product Code:  DIMACS/21.B
List Price: $209.00 $158.50
MAA Member Price: $188.10 $142.65
AMS Member Price: $167.20 $126.80
Interconnection Networks and Mapping and Scheduling Parallel Computations
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Interconnection Networks and Mapping and Scheduling Parallel Computations
Edited by: D. Frank Hsu Fordham University, Bronx, NY
Arnold L. Rosenberg University of Massachusetts, Amherst, MA
Dominique Sotteau University of Paris XI, Orsay, France
A co-publication of the AMS and DIMACS
Hardcover ISBN:  978-0-8218-0238-0
Product Code:  DIMACS/21
List Price: $108.00
MAA Member Price: $97.20
AMS Member Price: $86.40
eBook ISBN:  978-1-4704-3979-8
Product Code:  DIMACS/21.E
List Price: $101.00
MAA Member Price: $90.90
AMS Member Price: $80.80
Hardcover ISBN:  978-0-8218-0238-0
eBook ISBN:  978-1-4704-3979-8
Product Code:  DIMACS/21.B
List Price: $209.00 $158.50
MAA Member Price: $188.10 $142.65
AMS Member Price: $167.20 $126.80
  • Book Details
     
     
    DIMACS - Series in Discrete Mathematics and Theoretical Computer Science
    Volume: 211995; 342 pp
    MSC: Primary 68; 94; Secondary 78

    The interconnection network is one of the most basic components of a massively parallel computer system. Such systems consist of hundreds or thousands of processors interconnected to work cooperatively on computations. One of the central problems in parallel computing is the task of mapping a collection of processes onto the processors and routing network of a parallel machine. Once this mapping is done, it is critical to schedule computations within and communication among processors so that the necessary inputs for a process are available where and when the process is scheduled to be computed. This book contains the refereed proceedings of a DIMACS Workshop on Massively Parallel Computation, held in February 1994. The workshop brought together researchers from universities and laboratories, as well as practitioners involved in the design, implementation, and application of massively parallel systems. Focusing on interconnection networks of parallel architectures of today and of the near future, the book includes topics such as network topologies, network properties, message routing, network embeddings, network emulation, mappings, and efficient scheduling.

    Co-published with the Center for Discrete Mathematics and Theoretical Computer Science beginning with Volume 8. Volumes 1–7 were co-published with the Association for Computer Machinery (ACM).

    Readership

    Computer scientists and research mathematicians.

  • Table of Contents
     
     
    • Chapters
    • Ranking algorithms for Hamiltonian paths in hypercubic networks
    • Dense bus networks of diameter 2
    • On broadcasting schemes in restricted optical passive star systems
    • Restricted routing and wide diameter of the cycle prefix network
    • Permutation routing via Cayley graphs with an example for bus interconnection networks
    • Using helpful sets to improve graph bisections
    • Modification of consecutive-d digraphs
    • Highly adaptive wormhole routing algorithms for n-dimensional torus
    • Conflict-free access to constant-perimeter rectangular subarrays
    • Makespan minimization of task graphs with random task running times
    • Scheduling of structured and unstructured computation
    • Routing in optical networks: The problem of contention
    • Communications in optically interconnected parallel computer systems
    • Fault-tolerant Kautz networks
    • Asynchronous packet routers
    • Cayley digraphs of finite cyclic groups with minimal average distance
    • Shuffled tree based fault-tolerant hierarchical interconnection networks
    • Restricted connectivity and restricted fault diameter of some interconnection networks
    • Sorting and selection on interconnection networks
    • Towards a simple construction method for Hamiltonian decomposition of the hypercube
    • Generalized reduced hypercube interconnection networks for massively parallel computers
    • List of participants
  • Requests
     
     
    Review Copy – for publishers of book reviews
    Accessibility – to request an alternate format of an AMS title
Volume: 211995; 342 pp
MSC: Primary 68; 94; Secondary 78

The interconnection network is one of the most basic components of a massively parallel computer system. Such systems consist of hundreds or thousands of processors interconnected to work cooperatively on computations. One of the central problems in parallel computing is the task of mapping a collection of processes onto the processors and routing network of a parallel machine. Once this mapping is done, it is critical to schedule computations within and communication among processors so that the necessary inputs for a process are available where and when the process is scheduled to be computed. This book contains the refereed proceedings of a DIMACS Workshop on Massively Parallel Computation, held in February 1994. The workshop brought together researchers from universities and laboratories, as well as practitioners involved in the design, implementation, and application of massively parallel systems. Focusing on interconnection networks of parallel architectures of today and of the near future, the book includes topics such as network topologies, network properties, message routing, network embeddings, network emulation, mappings, and efficient scheduling.

Co-published with the Center for Discrete Mathematics and Theoretical Computer Science beginning with Volume 8. Volumes 1–7 were co-published with the Association for Computer Machinery (ACM).

Readership

Computer scientists and research mathematicians.

  • Chapters
  • Ranking algorithms for Hamiltonian paths in hypercubic networks
  • Dense bus networks of diameter 2
  • On broadcasting schemes in restricted optical passive star systems
  • Restricted routing and wide diameter of the cycle prefix network
  • Permutation routing via Cayley graphs with an example for bus interconnection networks
  • Using helpful sets to improve graph bisections
  • Modification of consecutive-d digraphs
  • Highly adaptive wormhole routing algorithms for n-dimensional torus
  • Conflict-free access to constant-perimeter rectangular subarrays
  • Makespan minimization of task graphs with random task running times
  • Scheduling of structured and unstructured computation
  • Routing in optical networks: The problem of contention
  • Communications in optically interconnected parallel computer systems
  • Fault-tolerant Kautz networks
  • Asynchronous packet routers
  • Cayley digraphs of finite cyclic groups with minimal average distance
  • Shuffled tree based fault-tolerant hierarchical interconnection networks
  • Restricted connectivity and restricted fault diameter of some interconnection networks
  • Sorting and selection on interconnection networks
  • Towards a simple construction method for Hamiltonian decomposition of the hypercube
  • Generalized reduced hypercube interconnection networks for massively parallel computers
  • List of participants
Review Copy – for publishers of book reviews
Accessibility – to request an alternate format of an AMS title
Please select which format for which you are requesting permissions.