High Performance Computing - HiPC 2008 : 15th International Conference, Bangalore, India, December 17-20, 2008, Proceedings / edited by P. Sadayappan, Manish Parashar, Ramamurthy Badrinath, Viktor K. Prasanna.

Format:

Book

Conference/Event

Author/Creator:

International Conference on High Performance Computing, Corporate Author.

Contributor:

Sadayappan, P., Editor.

Parashar, Manish., Editor.

Badrinath, Ramamurthy., Editor.

Prasanna Kumar, V. K., Editor.

Conference Name:

International Conference on High Performance Computing (15th : 2008 : Bangalore, India), author.

International Conference on High Performance Computing.

Series:

Theoretical Computer Science and General Issues, 2512-2029 ; 5374

Language:

English

Subjects (All):

Software engineering.

Computer science.

Computer engineering.

Computer networks.

Computers.

Software Engineering.

Theory of Computation.

Computer Engineering and Networks.

Hardware Performance and Reliability.

Local Subjects:

Software Engineering.

Theory of Computation.

Computer Engineering and Networks.

Hardware Performance and Reliability.

Physical Description:

1 online resource (XXV, 596 p.)

Edition:

1st ed. 2008.

Place of Publication:

Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2008.

Language Note:

English

Summary:

This book constitutes the refereed proceedings of the 15th International Conference on High-Performance Computing, HiPC 2008, held in Bangalore, India, in December 2008. The 46 revised full papers presented together with the abstracts of 5 keynote talks were carefully reviewed and selected from 317 submissions. The papers are organized in topical sections on applications performance optimizazion, parallel algorithms and applications, scheduling and resource management, sensor networks, energy-aware computing, distributed algorithms, communication networks as well as architecture.

Contents:

Keynote Addresses

Extreme Computing on the Distributed European Infrastructure for Supercomputing Applications - DEISA

Towards Networked Computers: What Can Be Learned from Distributed Computing?

Computational Environments for Coupling Multiphase Flow, Transport, and Mechanics in Porous Media

The Excitement in Parallel Computing

Session I: Performance Optimization

Improving Performance of Digest Caches in Network Processors

Optimization of BLAS on the Cell Processor

Fine Tuning Matrix Multiplications on Multicore

The Design and Architecture of MAQAOAdvisor: A Live Tuning Guide

A Load Balancing Framework for Clustered Storage Systems

Construction and Evaluation of Coordinated Performance Skeletons

Session II: Parallel Algorithms and Applications

Data Sharing Analysis of Emerging Parallel Media Mining Workloads

Efficient PDM Sorting Algorithms

Accelerating Cone Beam Reconstruction Using the CUDA-Enabled GPU

Improving the Performance of Tensor Matrix Vector Multiplication in Cumulative Reaction Probability Based Quantum Chemistry Codes

Experimental Evaluation of Molecular Dynamics Simulations on Multi-core Systems

Parsing XML Using Parallel Traversal of Streaming Trees

Session III: Scheduling and Resource Management

Performance Analysis of Multiple Site Resource Provisioning: Effects of the Precision of Availability Information

An Open Computing Resource Management Framework for Real-Time Computing

A Load Aware Channel Assignment and Link Scheduling Algorithm for Multi-channel Multi-radio Wireless Mesh Networks

Multi-round Real-Time Divisible Load Scheduling for Clusters

Energy-Efficient Dynamic Scheduling on Parallel Machines

A Service-Oriented Priority-Based Resource Scheduling Scheme for Virtualized Utility Computing

Session IV: Sensor Networks

Scalable Processing of Spatial Alarms

Coverage Based Expanding Ring Search for Dense Wireless Sensor Networks

An Energy-Balanced Task Scheduling Heuristic for Heterogeneous Wireless Sensor Networks

Energy Efficient Distributed Algorithms for Sensor Target Coverage Based on Properties of an Optimal Schedule

In-Network Data Estimation for Sensor-Driven Scientific Applications

Localization in Ad Hoc and Sensor Wireless Networks with Bounded Errors

Session V: Energy-Aware Computing

Optimization of Fast Fourier Transforms on the Blue Gene/L Supercomputer

ScELA: Scalable and Extensible Launching Architecture for Clusters

Parallel Information Theory Based Construction of Gene Regulatory Networks

Communication Analysis of Parallel 3D FFT for Flat Cartesian Meshes on Large Blue Gene Systems

Scalable Multi-cores with Improved Per-core Performance Using Off-the-critical Path Reconfigurable Hardware

Session VI: Distributed Algorithms

TrustCode: P2P Reputation-Based Trust Management Using Network Coding

Design, Analysis, and Performance Evaluation of an Efficient Resource Unaware Scheduling Strategy for Processing Divisible Loads on Distributed Linear Daisy Chain Networks

A Novel Learning Based Solution for Efficient Data Transport in Heterogeneous Wireless Networks

Scalable Data Collection in Sensor Networks

Task Scheduling on Heterogeneous Devices in Parallel Pervasive Systems (P 2 S)

A Performance Guaranteed Distributed Multicast Algorithm for Long-Lived Directional Communications in WANETs

Session VII: Communication Networks

Maintaining Quality of Service with Dynamic Fault Tolerance in Fat-Trees

Designing a High-Performance Clustered NAS: A Case Study with pNFS over RDMA on InfiniBand

Sockets Direct Protocol for Hybrid Network Stacks: A Case Study with iWARP over 10G Ethernet

Making a Case for Proactive Flow Control in Optical Circuit-Switched Networks

FBICM: Efficient Congestion Management for High-Performance Networks Using Distributed Deterministic Routing

Achieving 10Gbps Network Processing: Are We There Yet?

Session VIII: Architecture

SAIL: Self-Adaptive File Reallocation on Hybrid Disk Arrays

Directory-Based Conflict Detection in Hardware Transactional Memory

Fault-Tolerant Cache Coherence Protocols for CMPs: Evaluation and Trade-Offs

SDRM: Simultaneous Determination of Regions and Function-to-Region Mapping for Scratchpad Memories

An Utilization Driven Framework for Energy Efficient Caches.

Notes:

Bibliographic Level Mode of Issuance: Monograph

Includes bibliographical references and author index.

ISBN:

3-540-89894-8