Global chemistry‐climate models are computationally burdened as the chemical mechanisms become more complex and realistic. Optimization for graphics processing units (GPU) may make longer global simulation with regional detail possible, but limited study has been done to explore the potential benefit for the atmospheric chemistry modeling. Hence, in this study, the second‐order Rosenbrock solver of the chemistry module of CAM4‐Chem is ported to the GPU to gauge potential speed‐up. We find that on the CPU, the fastest performance is achieved using the Intel compiler with a block interleaved memory layout. Different combinations of compiler and memory layout lead to ~11.02× difference in the computational time. In contrast, the GPU version pe...
There is a growing need for ever more accurate climate and weather simulations to be delivered in sh...
AbstractNumerical weather prediction is one of the major applications in high performance computing ...
The performance and scalability of atmospheric transport models on high performance computing enviro...
We present a series of optimizations to alleviate stack memory overflow issues and improve overall p...
Atmospheric models are a representation of dynamical, physical, chemical, dynamical, and radiative ...
The study of atmospheric chemistry-climate interactions is one of today's great computational challe...
Environmental models are simplified representations of an object or a process [1]. These models pro...
In this study, the perennial problem of overestimation of ozone concentration from the global chemis...
AbstractThe increasing computing power of graphics processing units (GPU) has motivated the use of G...
<p>Precise and rapid air quality simulation and forecasting are limited by the computation performan...
Precise and rapid air quality simulations and forecasting are limited by the computational performan...
There is a growing need for ever more accurate climate and weather simulations to be delivered in sh...
Atmospheric chemistry models are a central tool to study and forecast the impact of air pollution on...
The graphics processing units (GPUs) are becoming a compelling acceleration strategy for geoscience ...
In recent years, multi-core processors have come to dominate the field in desktop and high performan...
There is a growing need for ever more accurate climate and weather simulations to be delivered in sh...
AbstractNumerical weather prediction is one of the major applications in high performance computing ...
The performance and scalability of atmospheric transport models on high performance computing enviro...
We present a series of optimizations to alleviate stack memory overflow issues and improve overall p...
Atmospheric models are a representation of dynamical, physical, chemical, dynamical, and radiative ...
The study of atmospheric chemistry-climate interactions is one of today's great computational challe...
Environmental models are simplified representations of an object or a process [1]. These models pro...
In this study, the perennial problem of overestimation of ozone concentration from the global chemis...
AbstractThe increasing computing power of graphics processing units (GPU) has motivated the use of G...
<p>Precise and rapid air quality simulation and forecasting are limited by the computation performan...
Precise and rapid air quality simulations and forecasting are limited by the computational performan...
There is a growing need for ever more accurate climate and weather simulations to be delivered in sh...
Atmospheric chemistry models are a central tool to study and forecast the impact of air pollution on...
The graphics processing units (GPUs) are becoming a compelling acceleration strategy for geoscience ...
In recent years, multi-core processors have come to dominate the field in desktop and high performan...
There is a growing need for ever more accurate climate and weather simulations to be delivered in sh...
AbstractNumerical weather prediction is one of the major applications in high performance computing ...
The performance and scalability of atmospheric transport models on high performance computing enviro...