Programmable hardware, in particular Field Programmable Gate Arrays (FPGAs), promises a significant increase in computational performance for simulations in geophysical fluid dynamics compared with CPUs of similar power consumption. FPGAs allow adjusting the representation of floating-point numbers to specific application needs. We analyze the performance-precision trade-off on FPGA hardware for the two-scale Lorenz '95 model. We scale the size of this toy model to that of a high-performance computing application in order to make meaningful performance tests. We identify the minimal level of precision at which changes in model results are not significant compared with a maximal precision version of the model and find that this level is very...
Inexact hardware design, which advocates trading the accuracy of computations in exchange for signif...
An implementation of seismic wave simulation on a platform consisting of a conventional host process...
Weather and climate models must continue to increase in both resolution and complexity in order that...
Increasing the resolution of numerical models has played a large part in improving the accuracy of w...
Reconfigurable architectures are becoming mainstream: Amazon, Microsoft and IBM are supporting such ...
Accurate forecasts of future climate with numerical models of atmosphere and ocean are of vital impo...
Accurate forecasts of weather and climate will become increasingly important as the world adapts to ...
A reduction of computational cost would allow higher resolution in numerical weather predictions wit...
The use of reduced numerical precision to reduce computing costs for the cloud resolving model of su...
© 2015 IEEE.The computationally intensive nature of atmospheric modelling is an ideal target for har...
The use of stochastic processing hardware and low precision arithmetic in atmospheric models is inve...
Representing all variables in double‐precision in weather and climate models may be a waste of compu...
The resolution of Earth System models may be substantially increased in the next decade with the eme...
Most Earth-system simulations run on conventional central processing units in 64-bit double precisio...
AbstractThe use of stochastic processing hardware and low precision arithmetic in atmospheric models...
Inexact hardware design, which advocates trading the accuracy of computations in exchange for signif...
An implementation of seismic wave simulation on a platform consisting of a conventional host process...
Weather and climate models must continue to increase in both resolution and complexity in order that...
Increasing the resolution of numerical models has played a large part in improving the accuracy of w...
Reconfigurable architectures are becoming mainstream: Amazon, Microsoft and IBM are supporting such ...
Accurate forecasts of future climate with numerical models of atmosphere and ocean are of vital impo...
Accurate forecasts of weather and climate will become increasingly important as the world adapts to ...
A reduction of computational cost would allow higher resolution in numerical weather predictions wit...
The use of reduced numerical precision to reduce computing costs for the cloud resolving model of su...
© 2015 IEEE.The computationally intensive nature of atmospheric modelling is an ideal target for har...
The use of stochastic processing hardware and low precision arithmetic in atmospheric models is inve...
Representing all variables in double‐precision in weather and climate models may be a waste of compu...
The resolution of Earth System models may be substantially increased in the next decade with the eme...
Most Earth-system simulations run on conventional central processing units in 64-bit double precisio...
AbstractThe use of stochastic processing hardware and low precision arithmetic in atmospheric models...
Inexact hardware design, which advocates trading the accuracy of computations in exchange for signif...
An implementation of seismic wave simulation on a platform consisting of a conventional host process...
Weather and climate models must continue to increase in both resolution and complexity in order that...