Digital earth science data originated from sensors aboard satellites and platforms such as airplane, UAV, and mobile systems are increasingly available with high spectral, spatial, vertical, and temporal resolution data. When such big earth science data are processed and analyzed via geocomputation solutions, or utilized in geospatial simulation or modeling, considerable computing power and resources are necessary to complete the tasks. While classic computer clusters equipped by central processing units (CPUs) and the new computing resources of graphics processing units (GPUs) have been deployed in handling big earth data, coprocessors based on the Intel’s Many Integrated Core (MIC) Architecture are emerging and adopted in many high-perfor...
Abstract — Fast increasing volumes of spatial data has made it imperative to develop both scalable a...
AbstractGeological models have been successfully used to identify and study geothermal energy resour...
Geospatial data is getting bigger and more difficult to analyse. Satellites, drones, vehicles, socia...
Quantitative remote sensing retrieval algorithms help understanding the dynamic aspects of Digital E...
The scientific demand for more accurate modeling of the climate system calls for more computing powe...
Due to the advancement of the latest-generation remote sensing instruments, a wealth of information ...
Quantitative remote sensing retrieval algorithms help understanding the dynamic aspects of Digital E...
Abstract—Accelerators have become critical in the process to develop supercomputers with exascale co...
In recent years there has been an explosion of geo-datasets derived from an increasing number of rem...
We present the overall goals of our research program on the application of high performance computin...
A grid-computing platform facilitates geocomputational workflow composition to process big geoscienc...
The development of the latest-generation sensors mounted on board of Earth observation platforms has...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
Spatial-temporal modelling of environmental systems such as agriculture, forestry, and water resourc...
Spatiotemporal computation implements a variety of different algorithms. When big data are involved,...
Abstract — Fast increasing volumes of spatial data has made it imperative to develop both scalable a...
AbstractGeological models have been successfully used to identify and study geothermal energy resour...
Geospatial data is getting bigger and more difficult to analyse. Satellites, drones, vehicles, socia...
Quantitative remote sensing retrieval algorithms help understanding the dynamic aspects of Digital E...
The scientific demand for more accurate modeling of the climate system calls for more computing powe...
Due to the advancement of the latest-generation remote sensing instruments, a wealth of information ...
Quantitative remote sensing retrieval algorithms help understanding the dynamic aspects of Digital E...
Abstract—Accelerators have become critical in the process to develop supercomputers with exascale co...
In recent years there has been an explosion of geo-datasets derived from an increasing number of rem...
We present the overall goals of our research program on the application of high performance computin...
A grid-computing platform facilitates geocomputational workflow composition to process big geoscienc...
The development of the latest-generation sensors mounted on board of Earth observation platforms has...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
Spatial-temporal modelling of environmental systems such as agriculture, forestry, and water resourc...
Spatiotemporal computation implements a variety of different algorithms. When big data are involved,...
Abstract — Fast increasing volumes of spatial data has made it imperative to develop both scalable a...
AbstractGeological models have been successfully used to identify and study geothermal energy resour...
Geospatial data is getting bigger and more difficult to analyse. Satellites, drones, vehicles, socia...