Papers & Talks

• EarthWorks Proposal to the National Science Foundation's Program for Cyberinfrastructure for Sustained Scientific Innovation, submitted November 2019


• EarthWorks recognized in the Colorado State University Walter Scott, Jr College of Engineering


• Presentation to the Community Earth System Model (CESM) Advisory Board, January 2021

EarthWorks Publications

Background Papers

• Davis, C. A., D. A. Ahijevych, W. Wang and W. C. Skamarock, 2016: Evaluating Medium-Range Tropical Cyclone Forecasts in Uniform and Variable-Resolution Global Models, Mon. Wea. Rev., 144, 4141-4160.
• Gettelman, A., Morrison, H., Thayer-Calder, K. and Zarzycki, C.M., 2019. The impact of rimed ice hydrometeors on global and regional climate. Journal of advances in modeling earth systems, 11, 1543-1562.
• Heinzeller, D., Duda, M.G. and Kunstmann, H., 2016. Towards convection-resolving, global atmospheric simulations with the Model for Prediction Across Scales (MPAS) v3. 1: An extreme scaling experiment. Geosci. Model Dev., 9, 77-110
• Hurrell, J.W., Holland, M.M., Gent, P.R., Ghan, S., Kay, J.E., Kushner, P.J., Lamarque, J.F., Large, W.G., Lawrence, D., Lindsay, K. and Lipscomb, W.H., 2013. The community earth system model: a framework for collaborative research. Bulletin of the American Meteorological Society, 94, 1339-1360.
• Judt, F., 2018. Insights into atmospheric predictability through global convection-permitting model simulations. Journal of the Atmospheric Sciences, 75, 1477-1497.
• Klemp, J. B., 2011: A terrain-following coordinate with smoothed coordinate surfaces. Mon. Wea. Rev., 139, 2163-2169.
• Klemp, J. B., W. C. Skamarock, W. C., and S.-H. Park, 2015: Idealized Global Nonhydrostatic Atmospheric Test Cases on a Reduced Radius Sphere. Journal of Advances in Modeling Earth Systems. doi:10.1002/2015MS000435
• Petersen, M.R., Jacobsen, D.W., Ringler, T.D., Hecht, M.W. and Maltrud, M.E., 2015. Evaluation of the arbitrary Lagrangian-Eulerian vertical coordinate method in the MPAS-Ocean model. Ocean Modelling, 86, 93-113.
• Petersen, M.R., Asay-Davis, X.S., Berres, A.S., Chen, Q., Feige, N., Hoffman, M.J., Jacobsen, D.W., Jones, P.W., Maltrud, M.E., Price, S.F. and Ringler, T.D., 2019. An Evaluation of the Ocean and Sea Ice Climate of E3SM Using MPAS and Interannual CORE-II Forcing. Journal of Advances in Modeling Earth Systems.
• Reckinger, S.M., Petersen, M.R. and Reckinger, S.J., 2015. A study of overflow simulations using MPAS-Ocean: Vertical grids, resolution, and viscosity. Ocean Modelling, 96, 291-313.
• Ringler, T.D., Thuburn, J., Klemp, J.B. and Skamarock, W.C., 2010. A unified approach to energy conservation and potential vorticity dynamics for arbitrarily-structured C-grids. Journal of Computational Physics, 229, 3065-3090.
• Ringler, T., Petersen, M., Higdon, R.L., Jacobsen, D., Jones, P.W. and Maltrud, M., 2013. A multi-resolution approach to global ocean modeling. Ocean Modelling, 69, 211-232.
• Sandbach, S., Thuburn, J., Vassilev, D. and Duda, M.G., 2015. A semi-implicit version of the MPAS-Atmosphere dynamical core. Monthly Weather Review, 143, 3838-3855
• Sandgathe, S., O'Connor, W., Lett, N., McCarren, D. and Toepfer, F., 2011. National Unified Operational Prediction Capability Initiative. Bulletin of the American Meteorological Society, 92(10), 1347-1351.
• Schwartz, C., 2019. Medium-Range Convection-Allowing Ensemble Forecasts with a Variable-Resolution Global Model. Bulletin of the American Meteorological Society, 147, 2997-3023.
• Sinkovits, R.S. and M.G. Duda, 2016, July. Optimization and parallel load balancing of the MPAS Atmosphere Weather and Climate Code. In Proceedings of the XSEDE16 Conference on Diversity, Big Data, and Science at Scale (p. 5). ACM.Vancouver
• Skamarock, W.C., Klemp, J.B., Duda, M.G., Fowler, L.D., Park, S.H. and Ringler, T.D., 2012. A multiscale nonhydrostatic atmospheric model using centroidal Voronoi tesselations and C-grid staggering. Monthly Weather Review, 140, 3090-3105.
• Skamarock, W. C., C. Snyder, J. B. Klemp and S. Park, 2019: Vertical resolution requirements in atmospheric simulation. Mon. Wea. Rev., 147, 2641-2656.
• Skamarock, W. C., M. Barth, A. Gettleman, and H. Liu, 2019: System for Integrated Modling of the Atmosphere (SIMA). Paper presented at the 2019 CESM Workshop in Boulder, Colorado. Available a thttp://www.cesm.ucar.edu/events/workshops/ws.2019/presentations/cross/skamarock.pdf.
• Skamarock, W.C., Ong, H. and Klemp, J.B., 2021. A Fully Compressible Nonhydrostatic Deep-Atmosphere Equations Solver for MPAS. Monthly Weather Review, 149(2), pp.571-583.
• Thuburn, J., Ringler, T.D., Skamarock, W.C. and Klemp, J.B., 2009. Numerical representation of geostrophic modes on arbitrarily structured C-grids. Journal of Computational Physics, 228, 8321-8335.
• Turner, A.K., 2018. MPAS-Seaice Model User's Guide (No. LA-UR-18-23512). Los Alamos National Lab.(LANL), Los Alamos, NM (United States).
• Wolfram Jr, P.J., Brus, S.R. and Engwirda, D., 2019. MPAS-O mesh characteristics, generation, and regional refinement (No. LA-UR-19-22631). Los Alamos National Lab.(LANL), Los Alamos, NM (United States).
• Wong, M. and W. C. Skamarock, 2016: Spectral characteristics of convective-scale precipitation observations and forecasts, Mon. Wea. Rev., 144, 4183-4195. doi: 10.1175/MWR-D-16-0183.1

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