Reconfigurable architectures are becoming mainstream: Amazon, Microsoft and IBM are supporting such architectures in their data centres. The computationally intensive nature of atmospheric modelling is an attractive target for hardware acceleration using reconfigurable computing. Performance of hardware designs can be improved through the use of reduced-precision arithmetic, but maintaining appropriate accuracy is essential. We explore reduced-precision optimisation for simulating chaotic systems, targeting atmospheric modelling, in which even minor changes in arithmetic behaviour will cause simulations to diverge quickly. The possibility of equally valid simulations having differing outcomes means that standard techniques for comparing num...
Representing all variables in double‐precision in weather and climate models may be a waste of compu...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
High Performance Computing (HPC) platforms allow scientists to model computationally intensive algor...
Reconfigurable architectures are becoming mainstream: Amazon, Microsoft and IBM are supporting such ...
© 2015 IEEE.The computationally intensive nature of atmospheric modelling is an ideal target for har...
Motivated by the increasing energy consumption of supercomputing for weather and climate simulations...
AbstractThe use of stochastic processing hardware and low precision arithmetic in atmospheric models...
The use of stochastic processing hardware and low precision arithmetic in atmospheric models is inve...
A reduction of computational cost would allow higher resolution in numerical weather predictions wit...
Inexact hardware design, which advocates trading the accuracy of computations in exchange for signif...
Programmable hardware, in particular Field Programmable Gate Arrays (FPGAs), promises a significant ...
The use of reduced numerical precision to reduce computing costs for the cloud resolving model of su...
Accurate forecasts of weather and climate will become increasingly important as the world adapts to ...
Increasing the resolution of numerical models has played a large part in improving the accuracy of w...
Reducing numerical precision can save computational costs which can then be reinvested for more usef...
Representing all variables in double‐precision in weather and climate models may be a waste of compu...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
High Performance Computing (HPC) platforms allow scientists to model computationally intensive algor...
Reconfigurable architectures are becoming mainstream: Amazon, Microsoft and IBM are supporting such ...
© 2015 IEEE.The computationally intensive nature of atmospheric modelling is an ideal target for har...
Motivated by the increasing energy consumption of supercomputing for weather and climate simulations...
AbstractThe use of stochastic processing hardware and low precision arithmetic in atmospheric models...
The use of stochastic processing hardware and low precision arithmetic in atmospheric models is inve...
A reduction of computational cost would allow higher resolution in numerical weather predictions wit...
Inexact hardware design, which advocates trading the accuracy of computations in exchange for signif...
Programmable hardware, in particular Field Programmable Gate Arrays (FPGAs), promises a significant ...
The use of reduced numerical precision to reduce computing costs for the cloud resolving model of su...
Accurate forecasts of weather and climate will become increasingly important as the world adapts to ...
Increasing the resolution of numerical models has played a large part in improving the accuracy of w...
Reducing numerical precision can save computational costs which can then be reinvested for more usef...
Representing all variables in double‐precision in weather and climate models may be a waste of compu...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
High Performance Computing (HPC) platforms allow scientists to model computationally intensive algor...