Lines Matching refs:fig

95 …element, we can express the global residual in operator notation (\autoref{fig:decomposition}), wh…
99 …ized implementations of the action and preconditioning ingredients. \label{fig:decomposition}](img…
111 A `CeedOperator` is composed of one or more operators defined as in \autoref{fig:decomposition}, an…
118 … not depend on element resolution, topology, or basis degree (see \autoref{fig:schematic}), in con…
127 …ting a Laplacian) on element resolution, topology, and basis degree.\label{fig:schematic}](img/QFu…
135 … both CPUs and GPUs, along with their composition into operators as in \autoref{fig:decomposition}.
141 \autoref{fig:libCEEDBackends} shows a subset of the backend implementations (backends) available in…
145 (backends) for heterogeneous architectures.\label{fig:libCEEDBackends}](img/libCEEDBackends.png)
149 …ement implementations [@Fischer2020scalability; @CEED-ECP-paper]. \autoref{fig:bp3} compares the p…
151 …d libCEED 0.7 using gcc-10 on EPYC and clang-10/CUDA-10 on Lassen.) \label{fig:bp3}](img/bp3-2020.…
156 …G stabilization and implicit, explicit, or IMEX time integration; \autoref{fig:NSvortices} shows v…
157 …ion and Newton-Krylov solvers with $p$-multigrid preconditioners; \autoref{fig:Solids} shows a twi…
159 ![Vortices develop as a cold air bubble drops to the ground.\label{fig:NSvortices}](img/Vortices.pn…
161 ![Strain energy density in a twisted Neo-Hookean beam.\label{fig:Solids}](img/SolidTwistExample.jpe…