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start [2021/09/24 12:57] – [High Performance Computing (HPC)] neggers | start [2022/09/14 16:57] – [High-resolution simulation] burchart | ||
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==== High-resolution simulation ==== | ==== High-resolution simulation ==== | ||
- | {{:snapshot_lwc-iwc_pascal-exp003-highfreq_v2.mp4?&600|Paraview visualization | + | {{:movie_joyce_tsi_dales_20140724-hr014_rs256_20s.mp4?&500|Time lapse movie of simulated cumulus clouds on 24 July 2014 at the JOYCE site. The ray tracing renderings are generated using the open source Blender tool. A hemispheric projection |
- | To achieve its science goals the InScAPE group makes use of a hierarchy of atmospheric models. These can be run on platforms ranging from simple workstations to supercomputers. One of the main " | + | To achieve its science goals the InScAPE group makes use of a hierarchy of atmospheric models. These can be run on platforms ranging from simple workstations to supercomputers. One of the main " |
- | In the InScAPE | + | At InScAPE various LES codes are used, including |
More details of our LES codes can be found in the [[models|overview of models]]. | More details of our LES codes can be found in the [[models|overview of models]]. | ||
+ | |||
==== Testbeds ==== | ==== Testbeds ==== | ||
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**[[sizedistribution|Cloud geometry]]** | **[[sizedistribution|Cloud geometry]]** | ||
- | Gaining insight into the morphology of cumulus cloud populations is essential for understanding cloud climate feedbacks and for improving their representation in ESMs. This concerns an incredibly broad range of scales, from single-cloud geometry via mesoscale cloud patterns to large-scale synoptic cloud structures. At InScAPE we explore new pathways to investigate and detect cloud field morphology and to capture this in conceptual models. | + | Gaining insight into the morphology of cumulus cloud populations is essential for understanding cloud climate feedbacks and for improving their representation in ESMs. This concerns an incredibly broad range of scales, from single-cloud geometry via mesoscale cloud patterns to large-scale synoptic cloud structures. At InScAPE we explore new pathways to investigate and detect cloud field morphology and to capture this in conceptual models. An exciting new effort is to use the Blender ray tracing tool for scientific renderings of simulated clouds fields. |
**[[edmf|EDMF]]** | **[[edmf|EDMF]]** |
start.txt · Last modified: 2024/01/23 14:13 by kiszler