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20121219-FCP.tex
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20121219-FCP.tex
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% \documentclass[handout]{beamer}
\documentclass{beamer}
\mode<presentation>
{
\usetheme{default}
\usefonttheme[onlymath]{serif}
% \usetheme{Singapore}
% \usetheme{Warsaw}
% \usetheme{Malmoe}
% \useinnertheme{circles}
% \useoutertheme{infolines}
% \useinnertheme{rounded}
\setbeamercovered{transparent=100}
}
\usepackage[english]{babel}
\usepackage[latin1]{inputenc}
\usepackage{alltt,listings,multirow,ulem,siunitx}
\usepackage[absolute,overlay]{textpos}
\TPGrid{1}{1}
\usepackage{pdfpages}
\usepackage{multimedia}
\usepackage{multicol}
\newcommand\hmmax{0}
\newcommand\bmmax{0}
\usepackage{bm}
% font definitions, try \usepackage{ae} instead of the following
% three lines if you don't like this look
\usepackage{mathptmx}
\usepackage[scaled=.90]{helvet}
% \usepackage{courier}
\usepackage[T1]{fontenc}
\usepackage{tikz}
\usetikzlibrary{decorations.pathreplacing}
\usetikzlibrary{shadows,arrows,shapes.misc,shapes.arrows,shapes.multipart,arrows,decorations.pathmorphing,backgrounds,positioning,fit,petri,calc,shadows,chains,matrix}
% \usepackage{pgfpages}
% \pgfpagesuselayout{4 on 1}[a4paper,landscape,border shrink=5mm]
\usepackage{JedMacros}
\title{Multilevel solvers with adaptive coarse space construction for lithosphere dynamics}
\author{{\bf Jed Brown}\inst{1}, Mark Adams\inst{2}, Matt Knepley\inst{3}, Barry Smith\inst{1}}
% - Use the \inst command only if there are several affiliations.
% - Keep it simple, no one is interested in your street address.
\institute
{
\inst{1}{Mathematics and Computer Science Division, Argonne National Laboratory} \\
\inst{2}{Columbia University} \\
\inst{3}{University of Chicago} \\
}
\date{Frontiers in Computational Physics, 2012-12-19}
% This is only inserted into the PDF information catalog. Can be left
% out.
\subject{Talks}
% If you have a file called "university-logo-filename.xxx", where xxx
% is a graphic format that can be processed by latex or pdflatex,
% resp., then you can add a logo as follows:
% \pgfdeclareimage[height=0.5cm]{university-logo}{university-logo-filename}
% \logo{\pgfuseimage{university-logo}}
% Delete this, if you do not want the table of contents to pop up at
% the beginning of each subsection:
% \AtBeginSubsection[]
% {
% \begin{frame}<beamer>
% \frametitle{Outline}
% \tableofcontents[currentsection,currentsubsection]
% \end{frame}
% }
\AtBeginSection[]
{
\begin{frame}<beamer>
\frametitle{Outline}
\tableofcontents[currentsection]
\end{frame}
}
% If you wish to uncover everything in a step-wise fashion, uncomment
% the following command:
% \beamerdefaultoverlayspecification{<+->}
\begin{document}
\lstset{language=C}
\normalem
\begin{frame}
\titlepage
\end{frame}
\input{slides/MonolithicOrSplit.tex}
\begin{frame}{Status quo for implicit solves in lithosphere dynamics}
\begin{itemize}
\item global linearization using Newton or Picard
\item assembly of a sparse matrix
\item ``block'' factorization preconditioner with approximate Schur complement
\item algebraic or geometric multigrid on positive-definite systems
\end{itemize}
\begin{block}{Why is this bad?}
\vspace{-1em}
\begin{itemize}
\item nonlinearities (e.g., plastic yield) are mostly local
\begin{itemize}
\item feed back through nearly linear large scales
\item frequent visits to fine-scales even in nearly-linear regions
\item no way to locally update coarse grid operator
\item Newton linearization introduces anisotropy
\end{itemize}
\item assembled sparse matrices are terrible for performance on modern hardware
\begin{itemize}
\item memory bandwidth is very expensive compared to flops
\item fine-scale assembly costs a lot of memory
\item assembled matrices are good for algorithmic experimentation
\end{itemize}
\item block preconditioners require more parallel communication
\end{itemize}
\end{block}
\end{frame}
\input{slides/HardwareArithmeticIntensity.tex}
\input{slides/Dohp/TensorVsAssembly.tex}
\input{slides/MG/TauFAS.tex}
\input{slides/MG/FMGRecovery.tex}
\input{slides/MG/FourSchools.tex}
% Coarsening
\input{slides/MG/CoarseGridComputableConvergenceMeasures.tex}
\input{slides/MG/CompatibleRelaxation.tex}
\input{slides/MG/CoarseBasisFunctionsOverview.tex}
\input{slides/MG/BDDCCoarseBasisFunctions.tex}
\input{slides/MG/CoarseGridWhyILikeSubdomainProblems.tex}
\input{slides/MG/SubdomainInterfaces.tex}
\input{slides/MG/CoarseGridComplicationForSaddlePoint.tex}
% Smoothing
\input{slides/MG/SmoothingNonlinearProblems.tex}
\input{slides/MG/SmoothingSaddlePoint.tex}
\input{slides/MG/VankaBlockSmoothers.tex}
\input{slides/PETSc/DistributiveSmoothing.tex}
\input{slides/Stokes/CoupledMGOptions.tex}
\begin{frame}{Outlook}
\begin{itemize}
\item smoothing with point-block Jacobi Chebyshev and scaled diagonal for pressure
\item needs only (subdomain ``Neumann'') nonlinear function evaluations and assembly of point-block diagonal matrices
\item convergence rates similar to smoothed aggregation, but without fine-grid assembly
\item allows local updates of coarse operator, but currently slower due to naive implementation
\item Development in progress within PETSc
\begin{itemize}
\item parallel implementation of dual-support problems without duplicating lots of work
\item homogenization-based nonlinear coarsening
\item true $\tau$ formulation with adaptive fine-grid visits and partial coarse operator updates
\item microstructure-compatible pressure interpolation
\item ``spectrally-correct'' nonlinear saddle-point smoothers
\item locally-computable spectral estimates for guaranteed-stable additive smoothers
\end{itemize}
\end{itemize}
\end{frame}
\end{document}