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More reliable forecasts with less precise computations: a fast-track route to cloud-resolved weather and climate simulators?

Abstract:
This paper sets out a new methodological approach to solving the equations for simulating and predicting weather and climate. In this approach, the conventionally hard boundary between the dynamical core and the sub-grid parametrizations is blurred. This approach is motivated by the relatively shallow power-law spectrum for atmospheric energy on scales of hundreds of kilometres and less. It is first argued that, because of this, the closure schemes for weather and climate simulators should be based on stochastic-dynamic systems rather than deterministic formulae. Second, as high-wavenumber elements of the dynamical core will necessarily inherit this stochasticity during time integration, it is argued that the dynamical core will be significantly over-engineered if all computations, regardless of scale, are performed completely deterministically and if all variables are represented with maximum numerical precision (in practice using double-precision floating-point numbers). As the era of exascale computing is approached, an energy- and computationally efficient approach to cloud-resolved weather and climate simulation is described where determinism and numerical precision are focused on the largest scales only.
Publication status:
Published

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Publisher copy:
10.1098/rsta.2013.0391

Authors

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Institution:
University of Oxford
Division:
MPLS
Department:
Physics
Sub department:
Atmos Ocean & Planet Physics
Role:
Author


Publisher:
The Royal Society
Journal:
Philosophical transactions. Series A, Mathematical, physical, and engineering sciences More from this journal
Volume:
372
Issue:
2018
Pages:
20130391
Publication date:
2014-06-01
DOI:
EISSN:
1471-2962
ISSN:
1364-503X


Language:
English
Keywords:
Pubs id:
pubs:471183
UUID:
uuid:1701c19f-59fe-43d7-821a-746e9152835e
Local pid:
pubs:471183
Source identifiers:
471183
Deposit date:
2014-09-17
ARK identifier:

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