Input-output (I/O) optimization at the low-level design of data layout on disk drastically impacts the efficiency of high performance computing (HPC) applications. However, such a low-level optimization is in general challenging, especially when using popular scientific file formats designed with an emphasis on portability and flexibility. To reconcile these two aspects, we present a novel low-level data layout for HPC applications, fully independent of the number of dimensions in the dataset. The new data layout improves reading and writing efficiency in large HPC applications using many processors, and in particular during parallel post-processing. Furthermore, its combination with a cached write mode, in order to aggregate multiple write...
Emerging scientific workflows in high performance computing (HPC) focus more on analysis rather than...
Extracting knowledge from increasingly large data sets produced, both experimentally and computation...
The computational resources required in scientific research for key areas, such as medicine, physics...
Input-output (I/O) optimization at the low-level design of data layout on disk drastically impacts t...
The applications being developed within the U.S. Exascale Computing Project (ECP) to run on imminent...
This paper describes a new approach to managing array data layouts to optimize performance for scien...
The compute capacity growth in high performance computing (HPC) systems is outperforming improvement...
High performance computing has become one of the fundamental contributors to the progress of science...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
A b s t r a c t The rapid advances in high-throughput biotechnologies such as DNA microarrays and ma...
Numerical simulations conducted on current high-performance computing (HPC) systems face an ever gro...
Due to the explosive growth in the size of scientific data sets, data-intensive computing is an emer...
High Performance Fortran (HPF) is rapidly gaining acceptance as a language for parallel programming....
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
"What Mathematics is to Physics, Data traversal is to High-performance computing." The world of Comp...
Emerging scientific workflows in high performance computing (HPC) focus more on analysis rather than...
Extracting knowledge from increasingly large data sets produced, both experimentally and computation...
The computational resources required in scientific research for key areas, such as medicine, physics...
Input-output (I/O) optimization at the low-level design of data layout on disk drastically impacts t...
The applications being developed within the U.S. Exascale Computing Project (ECP) to run on imminent...
This paper describes a new approach to managing array data layouts to optimize performance for scien...
The compute capacity growth in high performance computing (HPC) systems is outperforming improvement...
High performance computing has become one of the fundamental contributors to the progress of science...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
A b s t r a c t The rapid advances in high-throughput biotechnologies such as DNA microarrays and ma...
Numerical simulations conducted on current high-performance computing (HPC) systems face an ever gro...
Due to the explosive growth in the size of scientific data sets, data-intensive computing is an emer...
High Performance Fortran (HPF) is rapidly gaining acceptance as a language for parallel programming....
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
"What Mathematics is to Physics, Data traversal is to High-performance computing." The world of Comp...
Emerging scientific workflows in high performance computing (HPC) focus more on analysis rather than...
Extracting knowledge from increasingly large data sets produced, both experimentally and computation...
The computational resources required in scientific research for key areas, such as medicine, physics...