The book presents the state of the art in high performance computing and simulation on modern supercomputer architectures. It covers trends in hardware and software development in general and specifically the future of vector-based systems and heterogeneous architectures. The application contributions include computational fluid dynamics, physics, chemistry, astrophysics, and biology. Innovative application fields like multiphysics simulations and material science are presented.
The book presents the state of the art in high performance computing and simulation on modern supercomputer architectures. It covers trends in hardware and software development in general and specifically the future of vector-based systems and heterogeneous architectures. The application contributions include computational fluid dynamics, physics, chemistry, astrophysics, and biology. Innovative application fields like multiphysics simulations and material science are presented. Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Michael Resch, High Performance Computing Center Stuttgart, Germany / Thomas Bönisch, High Performance Computing Center Stuttgart, Germany / Katharina Benkert, High Performance Computing Center Stuttgart, Germany / Toshiyuki Furui, NEC Corporation, Tokyo, Japan / Yoshiki Seo, NEC Corporation, Kanagawa, Japan / Wolfgang Bez, NEC High Performance Europe, Düsseldorf, Germany
Inhaltsangabe
Future Architectures in Supercomputing.- The NEC SX-8 Vector Supercomputer System.- Have the Vectors the Continuing Ability to Parry the Attack of the Killer Micros?.- Performance and Applications on Vector Systems.- Performance Evaluation of Lattice-Boltzmann Magnetohydrodynamics Simulations on Modern Parallel Vector Systems.- Over 10 TFLOPS Computation for a Huge Sparse Eigensolver on the Earth Simulator.- First-Principles Simulation on Femtosecond Dynamics in Condensed Matters Within TDDFT-MD Approach.- Numerical Simulation of Transition and Turbulence in Wall-Bounded Shear Flow.- Finite Element Method.- Computational Efficiency of Parallel Unstructured Finite Element Simulations.- The Role of Supercomputing in Industrial Combustion Modeling.- Fluid Dynamics.- Simulation of the Unsteady Flow Field Around a Complete Helicopter with a Structured RANS Solver.- A Hybrid LES/CAA Method for Aeroacoustic Applications.- Simulation of Vortex Instabilities in Turbomachinery.- Particle Methods.- Atomistic Simulations on Scalar and Vector Computers.- Molecular Simulation of Fluids with Short Range Potentials.- Toward TFlop Simulations of Supernovae.- Turbulence Simulation.- Statistics and Intermittency of Developed Channel Flows: a Grand Challenge in Turbulence Modeling and Simulation.- Direct Numerical Simulation of Shear Flow Phenomena on Parallel Vector Computers.
Future Architectures in Supercomputing.- The NEC SX-8 Vector Supercomputer System.- Have the Vectors the Continuing Ability to Parry the Attack of the Killer Micros?.- Performance and Applications on Vector Systems.- Performance Evaluation of Lattice-Boltzmann Magnetohydrodynamics Simulations on Modern Parallel Vector Systems.- Over 10 TFLOPS Computation for a Huge Sparse Eigensolver on the Earth Simulator.- First-Principles Simulation on Femtosecond Dynamics in Condensed Matters Within TDDFT-MD Approach.- Numerical Simulation of Transition and Turbulence in Wall-Bounded Shear Flow.- Finite Element Method.- Computational Efficiency of Parallel Unstructured Finite Element Simulations.- The Role of Supercomputing in Industrial Combustion Modeling.- Fluid Dynamics.- Simulation of the Unsteady Flow Field Around a Complete Helicopter with a Structured RANS Solver.- A Hybrid LES/CAA Method for Aeroacoustic Applications.- Simulation of Vortex Instabilities in Turbomachinery.- Particle Methods.- Atomistic Simulations on Scalar and Vector Computers.- Molecular Simulation of Fluids with Short Range Potentials.- Toward TFlop Simulations of Supernovae.- Turbulence Simulation.- Statistics and Intermittency of Developed Channel Flows: a Grand Challenge in Turbulence Modeling and Simulation.- Direct Numerical Simulation of Shear Flow Phenomena on Parallel Vector Computers.
Future Architectures in Supercomputing.- The NEC SX-8 Vector Supercomputer System.- Have the Vectors the Continuing Ability to Parry the Attack of the Killer Micros?.- Performance and Applications on Vector Systems.- Performance Evaluation of Lattice-Boltzmann Magnetohydrodynamics Simulations on Modern Parallel Vector Systems.- Over 10 TFLOPS Computation for a Huge Sparse Eigensolver on the Earth Simulator.- First-Principles Simulation on Femtosecond Dynamics in Condensed Matters Within TDDFT-MD Approach.- Numerical Simulation of Transition and Turbulence in Wall-Bounded Shear Flow.- Finite Element Method.- Computational Efficiency of Parallel Unstructured Finite Element Simulations.- The Role of Supercomputing in Industrial Combustion Modeling.- Fluid Dynamics.- Simulation of the Unsteady Flow Field Around a Complete Helicopter with a Structured RANS Solver.- A Hybrid LES/CAA Method for Aeroacoustic Applications.- Simulation of Vortex Instabilities in Turbomachinery.- Particle Methods.- Atomistic Simulations on Scalar and Vector Computers.- Molecular Simulation of Fluids with Short Range Potentials.- Toward TFlop Simulations of Supernovae.- Turbulence Simulation.- Statistics and Intermittency of Developed Channel Flows: a Grand Challenge in Turbulence Modeling and Simulation.- Direct Numerical Simulation of Shear Flow Phenomena on Parallel Vector Computers.
Future Architectures in Supercomputing.- The NEC SX-8 Vector Supercomputer System.- Have the Vectors the Continuing Ability to Parry the Attack of the Killer Micros?.- Performance and Applications on Vector Systems.- Performance Evaluation of Lattice-Boltzmann Magnetohydrodynamics Simulations on Modern Parallel Vector Systems.- Over 10 TFLOPS Computation for a Huge Sparse Eigensolver on the Earth Simulator.- First-Principles Simulation on Femtosecond Dynamics in Condensed Matters Within TDDFT-MD Approach.- Numerical Simulation of Transition and Turbulence in Wall-Bounded Shear Flow.- Finite Element Method.- Computational Efficiency of Parallel Unstructured Finite Element Simulations.- The Role of Supercomputing in Industrial Combustion Modeling.- Fluid Dynamics.- Simulation of the Unsteady Flow Field Around a Complete Helicopter with a Structured RANS Solver.- A Hybrid LES/CAA Method for Aeroacoustic Applications.- Simulation of Vortex Instabilities in Turbomachinery.- Particle Methods.- Atomistic Simulations on Scalar and Vector Computers.- Molecular Simulation of Fluids with Short Range Potentials.- Toward TFlop Simulations of Supernovae.- Turbulence Simulation.- Statistics and Intermittency of Developed Channel Flows: a Grand Challenge in Turbulence Modeling and Simulation.- Direct Numerical Simulation of Shear Flow Phenomena on Parallel Vector Computers.
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