01199nam--2200385---450-99000042153020331620050614113253.00042153USA010042153(ALEPH)000042153USA01004215320010502d1991----km-y0itay0103----baspa||||||||001yy<<La>> autobiografia en lengua espanola[s.l.]Sociedad suiza de estudios hispanicos1991237 p.21 cmIspanica elvetica0001Atti del Convegno tenuto nel 19892001Ispanica elvetica0001001-------2001Autobiografie e memorieSpagnaSec. 20.Congressi1989CongressiLosanna1989868.64ITsalbcISBD990000421530203316VI.5.A. 325(II sp B 2/14)121565 LMII sp BBKUMAPATTY9020010502USA01131120020403USA011650PATRY9020040406USA011629COPAT79020050614USA011132Autobiografia en lengua espanola873276UNISA05658nam 22008535 450 991048465590332120251226203930.03-642-02303-710.1007/978-3-642-02303-3(CKB)1000000000746043(SSID)ssj0000317590(PQKBManifestationID)11923540(PQKBTitleCode)TC0000317590(PQKBWorkID)10293126(PQKB)11023834(DE-He213)978-3-642-02303-3(MiAaPQ)EBC3064226(PPN)136301339(BIP)27067767(EXLCZ)99100000000074604320100301d2009 u| 0engurnn#008mamaatxtccrEvolving OpenMP in an Age of Extreme Parallelism 5th International Workshop on OpenMP, IWOMP 2009, Dresden, Germany, June 3-5, 2009 Proceedings /edited by Matthias S. Müller, Bronis R. de Supinski, Barbara Chapman1st ed. 2009.Berlin, Heidelberg :Springer Berlin Heidelberg :Imprint: Springer,2009.1 online resource (X, 183 p.)Programming and Software Engineering,2945-9168 ;5568Bibliographic Level Mode of Issuance: Monograph3-642-02284-7 Includes bibliographical references and index.Fifth International Workshop on OpenMP IWOMP 2009 -- Parallel Simulation of Bevel Gear Cutting Processes with OpenMP Tasks -- Evaluation of Multicore Processors for Embedded Systems by Parallel Benchmark Program Using OpenMP -- Extending Automatic Parallelization to Optimize High-Level Abstractions for Multicore -- Scalability Evaluation of Barrier Algorithms for OpenMP -- Use of Cluster OpenMP with the Gaussian Quantum Chemistry Code: A Preliminary Performance Analysis -- Evaluating OpenMP 3.0 Run Time Systems on Unbalanced Task Graphs -- Dynamic Task and Data Placement over NUMA Architectures: An OpenMP Runtime Perspective -- Scalability of Gaussian 03 on SGI Altix: The Importance of Data Locality on CC-NUMA Architecture -- Providing Observability for OpenMP 3.0 Applications -- A Microbenchmark Suite for Mixed-Mode OpenMP/MPI -- Performance Profiling for OpenMP Tasks -- Tile Reduction: The First Step towards Tile Aware Parallelization in OpenMP -- A Proposal to Extend the OpenMP Tasking Model for Heterogeneous Architectures -- Identifying Inter-task Communication in Shared Memory Programming Models.OpenMP is an application programming interface (API) that is widely accepted as a de facto standard for high-level shared-memory parallel programming. It is a portable, scalable programming model that provides a simple and ?exible interface for developing shared-memory parallel applications in Fortran, C, and C++. Since its introduction in 1997, OpenMP has gained support from the - jority of high-performance compiler and hardware vendors. Under the direction of the OpenMP Architecture Review Board (ARB), the OpenMP speci'cation is undergoing further improvement. Active research in OpenMP compilers, r- time systems, tools, and environments continues to drive OpenMP evolution.To provideaforumforthedisseminationandexchangeofinformationaboutand- periences with OpenMP, the community of OpenMP researchersand developers in academia and industry is organized under cOMPunity (www.compunity.org). This organization has held workshops on OpenMP since 1999. This book contains the proceedings of the 5th International Workshop on OpenMP held in Dresden in June 2009. With sessions on tools, benchmarks, applications, performance and runtime environments it covered all aspects of the current use of OpenMP. In addition, several contributions presented p- posed extensions to OpenMP and evaluated reference implementations of those extensions. An invited talk provided the details on the latest speci'cation dev- opment inside the Architecture Review Board. Together with the two keynotes about OpenMP on hardware accelerators and future generation processors it demonstrated that OpenMP is suitable for future generation systems.Programming and Software Engineering,2945-9168 ;5568Computer programmingComputer scienceComputersElectronic digital computersEvaluationMicroprocessorsComputer architectureComputer systemsProgramming TechniquesTheory of ComputationHardware Performance and ReliabilitySystem Performance and EvaluationProcessor ArchitecturesComputer System ImplementationComputer programming.Computer science.Computers.Electronic digital computersEvaluation.Microprocessors.Computer architecture.Computer systems.Programming Techniques.Theory of Computation.Hardware Performance and Reliability.System Performance and Evaluation.Processor Architectures.Computer System Implementation.005.11Chapman Barbara1954-496035De Supinski Bronis R1423590Muller Matthias S236027MiAaPQMiAaPQMiAaPQBOOK9910484655903321Evolving OpenMP in an age of extreme parallelism4187264UNINA