(link) C.F. Eldred, T. Dubos, D. Le Roux, F. Voitus and E. Kritsikis, Progress towards a Hydrostatic Dynamical Core using Structure-Preserving Finite Elements, Solution of Partial Differential Equations on the Sphere, April 2017
(link) C.F. Eldred, T. Dubos, D. Le Roux, F. Voitus and E. Kritsikis, A Hydrostatic Dynamical Core using Structure-Preserving Finite Elements, SIAM CSE, March 2017
(link) C.F. Eldred, T. Dubos, D. Le Roux, F. Voitus and E. Kritsikis, A Hydrostatic Dynamical Core using Higher-Order Structure-Preserving Finite Elements, Structure and scaling in computational field theories, Norway, October 2016
(link) C.F. Eldred, M. Tayachi, T. Dubos, E. Kritsikis and F. Voitus Accelerated High-order finite element Assembly (A-HA!), CEMRACS, August 2016
(link) C.F. Eldred, T. Dubos and E. Kritsikis, Higher-order Structure-Preserving Finite Elements for Atmospheric Dynamical Cores, Dynamical Core Model Intercomparison Project, June 2016
(link) C.F. Eldred, T. Dubos and E. Kritsikis, Higher-order Structure-Preserving Finite Elements for Atmospheric Dynamical Cores, CANUM, May 2016
(link) C.F. Eldred and D.A. Randall, Energy and Potential Enstrophy Conserving Scheme for the Shallow Water Equations on a Z Grid, Solution of Partial Differential Equations on the Sphere, October 2015
(link) C.F. Eldred and D.A. Randall, Energy and Potential Enstrophy Conserving Scheme for the Shallow Water Equations on an Arbitrary Grid, Mathematics of the Weather Workshop, September 2015
(link) C.F. Eldred and D.A. Randall, Energy and Potential Enstrophy Conserving Scheme for the Rotating Shallow Water Equations on an Arbitrary Grid, American Geophysical Union Annual Meeting, December 2014
Posters- Conferences and Workshops
(link) C.F. Eldred, T. Dubos and E. Kritsikis, A Hydrostatic Dynamical Core using Higher-Order Structure-Preserving Finite Elements, European Geophysical Union Annual Meeting, April 2017
(link) C.F. Eldred, T. Dubos and E. Kritsikis, Dynamico-FE: A Hydrostatic Dynamical Core using Higher-Order Structure-Preserving Finite Elements, American Geophysical Union Annual Meeting, December 2016
(link) C.F. Eldred, T. Dubos and E. Kritsikis, A Structure Preserving Hydrostatic Model using Themis, Dynamical Core Model Intercomparison Project, June 2016
(link) C.F. Eldred, T. Dubos and E. Kritsikis, Finite Element Hydrostatic Primitive Equations in Themis, European Geophysical Union Annual Meeting, April 2016
(link) C.F. Eldred and D.A. Randall, Linear Properties of Numerical Schemes for the Shallow Water Equations, Solution of Partial Differential Equations on the Sphere, April 2014
(link) C.F. Eldred and D.A. Randall, Conservation Properties of Numerical Schemes for the Shallow Water Equations, European Geophysical Union Annual Meeting, April 2014
(link) C.F. Eldred and D.A. Randall, Linear Properties of Numerical Schemes for the Shallow Water Equations, American Geophysical Union Annual Meeting, December 2013
(link) C.F. Eldred and D.A. Randall, The Nonlinear Shallow Water Testbed Model (NTM): Implementation and Preliminary Results, Frontiers in Computational Physics, Dec 2012
Presentations- Internal Meetings, Seminars, Other Informal Settings
(link) C.F. Eldred, T. Dubos, D. Le Roux, F. Voitus and E. Kritsikis, Progress towards a (Quasi-)Hydrostatic Dynamical Core using Structure-Preserving Finite Elements, Grenoble, April 2017