Part I Challenges of Modern HPC Systems: Performance and Energy Efficiency Analysis
Feasibility study of future HPC systems for memory-intensive applications: Hiroaki Kobayashi
Analysing the Performance Improvements of Optimizations on Modern HPC Systems: Kazuhiko Komatsu, Toshihide Sasaki, Ryusuke Egawa, Hiroyuki Takizawa and Hiroaki Kobayashi
Power consumption of kernel operations: Dmitry Khabi and Uwe Küster
Part II Frameworks and Libraries for Simulations on New-Generation Computing Systems
Lattice Boltzmann Simulations On Complex Geometries: Simon Zimny, Kannan Masilamani, Kartik Jain and Sabine Roller
IMD – A Typical Massively Parallel Molecular Dynamics Code for Classical Simulations – Structure, Applications, Latest Developments: Johannes Roth
Evaluation of FastFlow Technology for Real-World Application: Kamran Idrees, Mathias Nachtmann, Colin W. Glass
Storage and indexing of fine grain, large scale data sets: Ralf Schneider
Part III Computational Engineering Applications and Multi-Physics Simulations
Direct Numerical Simulations of Film Cooling in a Supersonic Boundary-Layer Flow on Massively-Parallel Supercomputers: Michael Keller and Markus J. Kloker
Large scale numerics uncovering new states of matter: A. Moreno, J. M. P. Carmelo, and A. Muramatsu
Towards Simulation of Electrodialytic Sea Water Desalination: Kannan Masilamni, Jens Zudrop and Sabine Roller
A regional climate model simulation for EURO- CORDEX with the WRF model: Kirsten Warrach-Sagi, Thomas Schwitalla, Hans-Stefan Bauer, Volker-Wulfmeyer.
Part I Challenges of Modern HPC Systems: Performance and Energy Efficiency Analysis
Feasibility study of future HPC systems for memory-intensive applications: Hiroaki Kobayashi
Analysing the Performance Improvements of Optimizations on Modern HPC Systems: Kazuhiko Komatsu, Toshihide Sasaki, Ryusuke Egawa, Hiroyuki Takizawa and Hiroaki Kobayashi
Hiroaki Kobayashi: Feasibility study of a future HPC system for memory-intensive applications: Final report
Brendan M McLaughlin and Connor P Ballance: Petascale computations for Large-scale Atomic and Molecular collisions
Kentaro Sano: FPGA-based Scalable Custom Computing Accelerator for Computational Fluid Dynamics based on Lattice Boltzmann Method
Noritaka Hoshi and Shintaro Momose: SX-ACE, the Brand-New Vector Supercomputer for Higher Sustained Performance
Muneo Hori, Tsuyoshi Ichimura, Maddegedara L. L. Wijerathne, and Kouhei Fujita: Application of HPC to Earthquake Hazard and Disaster Estimation
Ryusuke Egawa, Kazuhiko Komatsu, and Hiroaki Kobayashi: Designing an HPC Refactoring Catalog Toward the Exa-scale Computing Era
Alexey Cheptsov and Bastian Koller: Endorsing Supercomputing Applications to Java Language
Osamu Watanabe, Takashi Soga, Youichi Shimomura, Akihiro Musa: Characteristic Analysis of Applications for Designing a Future HPC System
Kazuhiko Komatsu, Ryusuke Egawa, Hiroyuki Takizawa, and Hiroaki Kobayashi: Performance Evaluation of an OpenMP Parallelization by Using Automatic Parallelization Information
Holger Fröning: EXTOLL and Data Movements in Heterogeneous Computing Environments
Simmendinger, Rahn et Gruenewald: The GASPI API - A Failure Tolerant PGAS API for Asynchronous Dataflow on Heterogeneous Architectures
Daniel F. Harlacher, Harald Klimach, Sabine Roller: Experiences in Developing HPC Software with Portable Efficiency
Kentaro Sano: Interconnection Network: Design Space Exploration of Network for Supercomputers
Jens Aßmann, Alexander Kiontke, Sabine Roller: Requirements for Modern Network Infrastructures
Nisarg Patel and Uwe Küster: Geometry dependent computational study of patient specific Abdominal Aortic Aneurysm
Bastian Koller: Extending High Performance Computing with Cloud concepts
Jose Gracia and Huan Zhou: DASH – A Hierarchical Global Address Space Model Authors
Shintaro Momose: X-ACE, Brand-New Vector Supercomputer for Higher Sustained Performance
Hiroaki Kobayashi: Feasibility study of a future HPC system for memory-intensive applications: Final report
Brendan M McLaughlin and Connor P Ballance: Petascale computations for Large-scale Atomic and Molecular collisions
Kentaro Sano: FPGA-based Scalable Custom Computing Accelerator for Computational Fluid Dynamics based on Lattice Boltzmann Method