This study is undertaken to assess the computational and storage needs for a large-scale research activity to study water in the State of Indiana. It draws its data and compute numbers from the Vortex II Forecast Data study of 2010 carried out by the Data To Insight Center at Indiana University. Detail of the study can be found in each of the archived data products (which contains results of a single weather forecast plus 42 visualizations created for each forecast.) See https://scholarworks.iu.edu/dspace/handle/2022/15153 for example archived data product
Estimation of crop water needs is essential to understand the role of agriculture in the waterbalanc...
We present a collaborative research project called CI-WATER, which involves a consortium of Utah and...
This past semester I’ve been working three separate big data projects while on sabbatical. This talk...
Addressing the problem of how the availability and quality of water resources at large scales are se...
Hydrologic models are widely used to determine the occurrence and severity of droughts, and to aid i...
Abstract: Flow in the unconsolidated glacial deposits near the city of Carmel in central Indiana was...
“Big Iron” super computers and commercial cloud resources (Amazon, Google, Microsoft) are considered...
The data volumes produced by simulation and observation are large, and becoming larger. In the case ...
Water is arguably our most important resource and the issue of its sustainability arises with our ev...
Across the globe, climate change is projected to affect the quantity, quality, and timing of freshwa...
Abstract Catchment water storage capacity (CWSC) links the atmosphere and terrestrial ecosystems, w...
Simulations with different combinations of roof catchment area, storage capacity, and demand can be ...
In May 2009, NERSC, DOE's Office of Advanced Scientific Computing Research (ASCR), and DOE's Office ...
This report from the Indiana Climate Change Impacts Assessment (IN CCIA) applies climate change proj...
Often, when governmental and non-governmental entities attempt to make plans for future water supply...
Estimation of crop water needs is essential to understand the role of agriculture in the waterbalanc...
We present a collaborative research project called CI-WATER, which involves a consortium of Utah and...
This past semester I’ve been working three separate big data projects while on sabbatical. This talk...
Addressing the problem of how the availability and quality of water resources at large scales are se...
Hydrologic models are widely used to determine the occurrence and severity of droughts, and to aid i...
Abstract: Flow in the unconsolidated glacial deposits near the city of Carmel in central Indiana was...
“Big Iron” super computers and commercial cloud resources (Amazon, Google, Microsoft) are considered...
The data volumes produced by simulation and observation are large, and becoming larger. In the case ...
Water is arguably our most important resource and the issue of its sustainability arises with our ev...
Across the globe, climate change is projected to affect the quantity, quality, and timing of freshwa...
Abstract Catchment water storage capacity (CWSC) links the atmosphere and terrestrial ecosystems, w...
Simulations with different combinations of roof catchment area, storage capacity, and demand can be ...
In May 2009, NERSC, DOE's Office of Advanced Scientific Computing Research (ASCR), and DOE's Office ...
This report from the Indiana Climate Change Impacts Assessment (IN CCIA) applies climate change proj...
Often, when governmental and non-governmental entities attempt to make plans for future water supply...
Estimation of crop water needs is essential to understand the role of agriculture in the waterbalanc...
We present a collaborative research project called CI-WATER, which involves a consortium of Utah and...
This past semester I’ve been working three separate big data projects while on sabbatical. This talk...