Titlebook: Sustained Simulation Performance 2014; Proceedings of the j Michael M. Resch,Wolfgang Bez,Nisarg Patel Conference proceedings 2015 Springer

虚弱的神经

敲诈

The GASPI API: A Failure Tolerant PGAS API for Asynchronous Dataflow on Heterogeneous Architecturesfocused on three key objectives: scalability, flexibility and fault tolerance. It offers a small, yet powerful API composed of synchronization primitives, synchronous and asynchronous collectives, fine-grained control over one-sided read and write communication primitives, global atomics, passive re

含糊

Characteristic Analysis of Applications for Designing a Future HPC Systems, environmental issues, industrial competitiveness, and so on. To research future HPC systems for finding such solutions, the Ministry of Education, Culture, Sports, Science and Technology in Japan conducted a research program, “Feasibility Study of Future HPCI Systems”. Tohoku University, the Japa

种族被根除

Mercurial

SX-ACE, Brand-New Vector Supercomputer for Higher Sustained Performance Iance particularly for memory-intensive applications. This system is based on the high performance core strategy targeting higher sustained performance. It provides both the world top-class single core performance of 64 GFlop/s and the world highest memory bandwidth per core of 64 GBytes/s. Four core

inchoate

SX-ACE, the Brand-New Vector Supercomputer for Higher Sustained Performance IIitecture, is developed to provide superior sustained performance, especially for memory-intensive applications. For this purpose, the SX-ACE processor achieves the world’s top-class single core performance of 64 GFLOPS and the world’s leading memory bandwidth of 64 GB/s per core. Moreover, the SX-AC

ACE-inhibitor

Feasibility Study of a Future HPC System for Memory Intensive Applications: Conceptual Design of Sto exa-scale system, it is extremely important to design a large scale storage system with high bandwidth.We made a conceptual design of a mass storage system with high-speed I/O technology by studying future I/O requirements from simulations for disaster prevention and mitigation research. We conclud

TOM

Designing an HPC Refactoring Catalog Toward the Exa-scale Computing Erang, and the design of the HPC refactoring catalog. The HPC refactoring catalog provides a guideline to keep performance portability across different supercomputing systems based on the quantitative analysis of practical simulations. In this paper, our recent research activities for designing the HPC

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Obvious