The applications being developed within the U.S. Exascale Computing Project (ECP) to run on imminent Exascale computers will generate scientific results with unprecedented fidelity and record turn-around time. Many of these codes are based on particle-mesh methods and use advanced algorithms, especially dynamic load-balancing and mesh-refinement, to achieve high performance on Exascale machines. Yet, as such algorithms improve parallel application efficiency, they raise new challenges for I/O logic due to their irregular and dynamic data distributions. Thus, while the enormous data rates of Exascale simulations already challenge existing file system write strategies, the need for efficient read and processing of generated data introduces ad...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
Exascale supercomputing will embody many revolutionary changes in the hardware and software of high-...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Input-output (I/O) optimization at the low-level design of data layout on disk drastically impacts t...
Abstract—Performance of reading scientific data from a parallel file system depends on the organizat...
Input-output (I/O) optimization at the low-level design of data layout on disk drastically impacts t...
Today’s large-scale simulations deal with complex geometries and numerical data on an extreme scale...
International audienceIt has been clearly identified that I/O is one of the bottleneck to extend app...
Scientific applications at exascale generate and analyze massive amounts of data. A critical require...
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
Nowadays, the whole HPC community is looking forward to the exascale era, with computer and system a...
Many scientific applications are I/O intensive and have tremendous I/O requirements, including check...
Particle in cell simulations represent an excellent paradigm for codesign efforts. PIC codes are sim...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
This work was supported in part by the U.S. Department of Energy, Office of Science, Advanced Scient...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
Exascale supercomputing will embody many revolutionary changes in the hardware and software of high-...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Input-output (I/O) optimization at the low-level design of data layout on disk drastically impacts t...
Abstract—Performance of reading scientific data from a parallel file system depends on the organizat...
Input-output (I/O) optimization at the low-level design of data layout on disk drastically impacts t...
Today’s large-scale simulations deal with complex geometries and numerical data on an extreme scale...
International audienceIt has been clearly identified that I/O is one of the bottleneck to extend app...
Scientific applications at exascale generate and analyze massive amounts of data. A critical require...
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
Nowadays, the whole HPC community is looking forward to the exascale era, with computer and system a...
Many scientific applications are I/O intensive and have tremendous I/O requirements, including check...
Particle in cell simulations represent an excellent paradigm for codesign efforts. PIC codes are sim...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
This work was supported in part by the U.S. Department of Energy, Office of Science, Advanced Scient...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
Exascale supercomputing will embody many revolutionary changes in the hardware and software of high-...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...