Abstract—Accelerators have become critical in the process to develop supercomputers with exascale computing capability. In this work, we examine the potential of two latest acceleration technologies, Nvidia K20 Kepler GPU and Intel Many Integrated Core (MIC) Architecture, for accelerating geospatial applications. We first apply a set of benchmarks under 3 different configu-rations, i.e., MPI+CPU, MPI+GPU, and MPI+MIC. This set of benchmarks include embarrassingly parallel application, loosely communicating application, and intensely communicating appli-cation. It is found that the straightforward MPI implementation on MIC cores can achieve the same amount of performance speedup as hybrid MPI+GPU implementation when the same number of proces...
Map-Reduce is a framework for processing parallelizable problem across huge datasets using a large c...
Spatiotemporal computation implements a variety of different algorithms. When big data are involved,...
In order to reach exascale computing capability, accelerators have become a crucial part in developi...
The increasingly available Graphics Processing Units (GPU) hardware resources and the emerging Gener...
Unconventional multi-core processors (e.g., IBM Cell B/E and NYIDIDA GPU) have emerged as accelerato...
Digital earth science data originated from sensors aboard satellites and platforms such as airplane,...
We design and implement Mars, a MapReduce runtime system accelerated with graphics processing units ...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
We design and implement Mars, a MapReduce runtime system accelerated with graphics processing units ...
Abstract — Fast increasing volumes of spatial data has made it imperative to develop both scalable a...
The 21st Century is witnessing a rapid rise of urbanization both in the developed and the developing...
The programming of GPUs (Graphics Processing Units) is ready for practical applications; the largest...
This paper evaluates the potential of embedded graphic processing units (GPU) in the Nvidia's Tegra ...
With the limits to frequency scaling in microprocessors due to power constraints, many-core and mult...
The graphics processing units (GPUs) are becoming a compelling acceleration strategy for geoscience ...
Map-Reduce is a framework for processing parallelizable problem across huge datasets using a large c...
Spatiotemporal computation implements a variety of different algorithms. When big data are involved,...
In order to reach exascale computing capability, accelerators have become a crucial part in developi...
The increasingly available Graphics Processing Units (GPU) hardware resources and the emerging Gener...
Unconventional multi-core processors (e.g., IBM Cell B/E and NYIDIDA GPU) have emerged as accelerato...
Digital earth science data originated from sensors aboard satellites and platforms such as airplane,...
We design and implement Mars, a MapReduce runtime system accelerated with graphics processing units ...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
We design and implement Mars, a MapReduce runtime system accelerated with graphics processing units ...
Abstract — Fast increasing volumes of spatial data has made it imperative to develop both scalable a...
The 21st Century is witnessing a rapid rise of urbanization both in the developed and the developing...
The programming of GPUs (Graphics Processing Units) is ready for practical applications; the largest...
This paper evaluates the potential of embedded graphic processing units (GPU) in the Nvidia's Tegra ...
With the limits to frequency scaling in microprocessors due to power constraints, many-core and mult...
The graphics processing units (GPUs) are becoming a compelling acceleration strategy for geoscience ...
Map-Reduce is a framework for processing parallelizable problem across huge datasets using a large c...
Spatiotemporal computation implements a variety of different algorithms. When big data are involved,...
In order to reach exascale computing capability, accelerators have become a crucial part in developi...