A Layer-averaged Nonhydrostatic Dynamical Framework on an Unstructured Mesh for Global and Regional Atmospheric Modeling: Model Description, Baseline Evaluation and Sensitivity Exploration

Selected model output data for supporting this paper. List of Files: 2dtracer.tar.gz: correlated tracer test rh3d.tar.gz: 3D Rossby-Haurwitz Wave modon.tar.gz: Colliding Modons jwss.tar.gz: Jablonowski-Williamson Baroclinic Steady State jwbw_1d.tar.gz: 1D data output from Jablonowski-Williamson Baroclinic Wave jwbw_2d.tar.gz: 2D data output from Jablonowski-Williamson Baroclinic Wave dcmip31.tar.gz: DCMIP3-1 nonhydrostatic gravity wave Klemp15.tar.gz: Nonhydrostatic Mountain Waves in Klemp et al. 2015 held-suarez.tar.gz: Held-Suarez dry climate (post-processed data for plotting, the raw daily data are too large to upload) jwbwvr.tar.gz: Variable-Resolution modeling of the Jablonowski-Williamson Baroclinic Wave   see https://doi.org/10.5281/zenodo.3544795 for a companion work References: Zhang, Y., J. Li, R. Yu, S. Zhang, Z. Liu, J. Huang, and Y. Zhou, 2019: A Layer-Averaged Nonhydrostatic Dynamical Framework on an Unstructured Mesh for Global and Regional Atmospheric Modeling: Model Description, Baseline Evaluation, and Sensitivity Exploration. Journal of Advances in Modeling Earth Systems, 11, 1685-1714.