280 lines
8.4 KiB
Plaintext
280 lines
8.4 KiB
Plaintext
\documentclass[tikz,border=0.1cm]{standalone}
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\usepackage[utf8]{inputenc}
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\usepackage[T1]{fontenc}
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\usepackage{lmodern}
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\usepackage[ngerman]{babel}
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\usepackage{amsmath}
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\usepackage{amssymb}
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\usepackage{amsthm}
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\usepackage{mathtools}
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\usepackage{IEEEtrantools}
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\usepackage{microtype}
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\usepackage{amsopn}
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\usepackage{varwidth}
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\usepackage{xcolor,colortbl}
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\usepackage{tabu}
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\usepackage{comment}
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\usepackage{enumerate}
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\usepackage{array}
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\usepackage{csquotes}
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\usepackage{tikz}
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\usepackage{tikz-qtree}
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\usepackage{tikz-3dplot}
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\usepackage{nicefrac}
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\usetikzlibrary{trees,positioning,shapes,calc,patterns,angles,quotes}
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%\usepackage[squaren]{SIunits}
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\usepackage{pgfplots}
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\usepackage{algpseudocode}
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\usepackage{algorithm}
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%\usepackage{hyperref}
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\usepackage{booktabs}
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\usepackage{amsfonts}
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\usepackage{color}
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\usepackage{stmaryrd}
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\usepackage[shortlabels]{enumitem}
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\usepackage{todonotes}
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\usepackage{mathdots}
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\usepackage{empheq}
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\usepgfplotslibrary{fillbetween}
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\pgfplotsset{compat=1.11}
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\usepackage[caption=false]{subfig}
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\usepackage{etoolbox}
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\makeatletter
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\providerobustcmd*{\bigcupdot}{%
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\mathop{%
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\mathpalette\bigop@dot\bigcup
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}%
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}
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\newrobustcmd*{\bigop@dot}[2]{%
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\setbox0=\hbox{$\m@th#1#2$}%
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\vbox{%
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\lineskiplimit=\maxdimen
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\lineskip=-0.7\dimexpr\ht0+\dp0\relax
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\ialign{%
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\hfil##\hfil\cr
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$\m@th\cdot$\cr
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\box0\cr
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}%
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}%
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}
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\makeatother
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\newcommand*\widefbox[1]{\fbox{\hspace{2em}#1\hspace{2em}}}
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\newlength\Origarrayrulewidth
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% horizontal rule equivalent to \cline but with 2pt width
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\newcommand{\Cline}[1]{%
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\noalign{\global\setlength\Origarrayrulewidth{\arrayrulewidth}}%
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\noalign{\global\setlength\arrayrulewidth{2pt}}\cline{#1}%
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\noalign{\global\setlength\arrayrulewidth{\Origarrayrulewidth}}%
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}
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% draw a vertical rule of width 2pt on both sides of a cell
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\newcommand\Thickvrule[1]{%
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\multicolumn{1}{!{\vrule width 2pt}c!{\vrule width 2pt}}{#1}%
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}
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% draw a vertical rule of width 2pt on the left side of a cell
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\newcommand\Thickvrulel[1]{%
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\multicolumn{1}{!{\vrule width 2pt}c|}{#1}%
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}
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% draw a vertical rule of width 2pt on the right side of a cell
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\newcommand\Thickvruler[1]{%
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\multicolumn{1}{|c!{\vrule width 2pt}}{#1}%
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}
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\theoremstyle{plain}
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\newtheorem{theorem}{Satz}
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\newtheorem{satz}{Satz}
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\newtheorem{lemma}[theorem]{Lemma}
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\newtheorem{proposition}[theorem]{Proposition}
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\newtheorem{Theorem}[theorem]{Theorem}
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\newtheorem{corollary}[theorem]{Korollar}
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\theoremstyle{definition}
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\newtheorem{defi}[theorem]{Definition}
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\newtheorem{definition}[theorem]{Definition}
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\newtheorem{algorithmThm}[theorem]{Algorithmus}
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\newtheorem{remark}[theorem]{Bemerkung}
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\newtheorem{bem}[theorem]{Bemerkung}
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\newtheorem{example}[theorem]{Beispiel}
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\newtheorem{bsp}[theorem]{Beispiel}
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\newtheorem{outlook}[theorem]{Ausblick}
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\newtheorem{notation}[theorem]{Notation}
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%\newenvironment{bsp}{\par\noindent\textbf{\thechapter. Beispiel}}{}
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\newcommand{\myworries}[1]{\textcolor{red}{#1}}
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\newtheorem{exercise}{Aufgabe}
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\numberwithin{exercise}{section}
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\numberwithin{equation}{section}
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\numberwithin{theorem}{section}
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\newcommand{\bbA}{\mathbb{A}}
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\newcommand{\bbB}{\mathbb{B}}
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\newcommand{\bbC}{\mathbb{C}}
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\newcommand{\bbD}{\mathbb{D}}
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\newcommand{\bbE}{\mathbb{E}}
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\newcommand{\bbF}{\mathbb{F}}
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\newcommand{\bbG}{\mathbb{G}}
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\newcommand{\bbH}{\mathbb{H}}
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\newcommand{\bbI}{\mathbb{I}}
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\newcommand{\bbJ}{\mathbb{J}}
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\newcommand{\bbK}{\mathbb{K}}
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\newcommand{\bbL}{\mathbb{L}}
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\newcommand{\bbM}{\mathbb{M}}
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\newcommand{\bbN}{\mathbb{N}}
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\newcommand{\bbO}{\mathbb{O}}
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\newcommand{\bbP}{\mathbb{P}}
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\newcommand{\bbQ}{\mathbb{Q}}
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\newcommand{\bbR}{\mathbb{R}}
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\newcommand{\bbS}{\mathbb{S}}
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\newcommand{\bbT}{\mathbb{T}}
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\newcommand{\bbU}{\mathbb{U}}
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\newcommand{\bbV}{\mathbb{V}}
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\newcommand{\bbW}{\mathbb{W}}
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\newcommand{\bbX}{\mathbb{X}}
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\newcommand{\bbY}{\mathbb{Y}}
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\newcommand{\bbZ}{\mathbb{Z}}
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\newcommand{\calA}{\mathcal{A}}
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\newcommand{\calB}{\mathcal{B}}
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\newcommand{\calC}{\mathcal{C}}
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\newcommand{\calD}{\mathcal{D}}
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\newcommand{\calE}{\mathcal{E}}
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\newcommand{\calF}{\mathcal{F}}
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\newcommand{\calG}{\mathcal{G}}
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\newcommand{\calH}{\mathcal{H}}
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\newcommand{\calI}{\mathcal{I}}
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\newcommand{\calJ}{\mathcal{J}}
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\newcommand{\calK}{\mathcal{K}}
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\newcommand{\calL}{\mathcal{L}}
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\newcommand{\calM}{\mathcal{M}}
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\newcommand{\calN}{\mathcal{N}}
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\newcommand{\calO}{\mathcal{O}}
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\newcommand{\calP}{\mathcal{P}}
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\newcommand{\calQ}{\mathcal{Q}}
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\newcommand{\calR}{\mathcal{R}}
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\newcommand{\calS}{\mathcal{S}}
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\newcommand{\calT}{\mathcal{T}}
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\newcommand{\calU}{\mathcal{U}}
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\newcommand{\calV}{\mathcal{V}}
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\newcommand{\calW}{\mathcal{W}}
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\newcommand{\calX}{\mathcal{X}}
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\newcommand{\calY}{\mathcal{Y}}
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\newcommand{\calZ}{\mathcal{Z}}
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%Miscellaneous
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\newcommand{\diff}{d} %{\,\mathrm{d}}
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\newcommand{\ddx}{\frac{\diff}{\diff x}}
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\newcommand{\quot}[1]{\enquote{#1}}
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\newcommand{\setof}[1]{\widehat{#1}} %die Menge einer Algebra
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\newcommand{\WLOG}{without loss of generality}
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\DeclareMathOperator{\fst}{fst}
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\DeclareMathOperator{\snd}{snd}
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%Functions
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\newcommand{\successor}[1]{s(#1)}
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\newcommand{\predecessor}[1]{p(#1)}
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\newcommand{\successors}[1]{S_{#1}}
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\newcommand{\predecessors}[1]{P_{#1}}
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\newcommand{\innerSet}[1]{\widehat{#1}}
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%Operators for Relations
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\newcommand{\equalDef}{\coloneqq}
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\newcommand{\defEqual}{\eqqcolon}
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\newcommand{\equivDef}{:\Leftrightarrow}
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%Operators for Functions
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\newcommand{\dProd}[2]{\left\langle #1, #2 \right\rangle}
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\newcommand{\revdProd}[2]{\,\overleftrightarrow{\!\dProd{#1}{#2}\!}\,}
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\newcommand{\revrevdProd}[2]{\,\overleftrightarrow{\overleftrightarrow{\!\dProd{#1}{#2}\!}}\,}
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\newcommand{\dProdFunc}{\dProd{\cdot}{\cdot}}
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\newcommand{\revdProdFunc}{\revdProd{\cdot}{\cdot}}
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\newcommand{\revrevdProdFunc}{\revrevdProd{\cdot}{\cdot}}
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\newcommand{\norm}[1]{\| #1 \|}
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\newcommand{\logtwo}{\log_2}
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%Operators for Sets
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\newcommand{\powerset}[1]{\calP(#1)}
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\newcommand{\card}[1]{|#1|}
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\DeclareMathOperator{\Hom}{Hom}
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\DeclareMathOperator{\Kern}{Kern}
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\DeclareMathOperator{\Bild}{Bild}
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\DeclareMathOperator{\im}{im}
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\DeclareMathOperator{\id}{id}
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\DeclareMathOperator{\cod}{cod}
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\DeclareMathOperator{\dom}{dom}
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\DeclareMathOperator*{\argmax}{argmax}
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%Concrete Set Identifiers
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\newcommand{\steadyOn}[1]{C(#1)}
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\newcommand{\natOne}{\bbZ^+}
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\newcommand{\natZero}{\bbN_0}
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\newcommand{\oneToN}[1]{\bbN^{(#1)}}
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\newcommand{\integers}{\bbZ}
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\newcommand{\rationals}{\bbQ}
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\newcommand{\reals}{\bbR}
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\newcommand{\complex}{\bbC}
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\newcommand{\posReals}{\bbR^+}
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\newcommand{\nonNegReals}{\bbR_0^+}
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\newcommand{\negReals}{\bbR^-}
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\newcommand{\nonPosReals}{\bbR_0^-}
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\newcommand{\domain}[1]{\dom \left( #1 \right)}
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\newcommand{\codomain}[1]{\cod \left( #1 \right)}
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\newcommand{\image}[1]{\im \left( #1 \right)}
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\DeclareMathOperator{\rePart}{Re}
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\DeclareMathOperator{\imPart}{Im}
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%Complexity Sets
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%\newcommand{\compEq}[2][]{\Theta_{#1} \left( #2 \right)}
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%\newcommand{\compLess}[2][]{o_{#1} \left( #2 \right)}
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%\newcommand{\compLeq}[2][]{\calO_{#1} \left( #2 \right)}
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%\newcommand{\compGreater}[2][]{\omega_{#1} \left( #2 \right)}
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%\newcommand{\compGeq}[2][]{\Omega_{#1} \left( #2 \right)}
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\newcommand{\compEq}[1]{\Theta \left( #1 \right)}
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\newcommand{\compLess}[1]{o\left( #1 \right)}
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\newcommand{\compLeq}[1]{O\left( #1 \right)}
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\newcommand{\compGreater}[1]{\omega\left( #1 \right)}
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\newcommand{\compGeq}[1]{\Omega\left( #1 \right)}
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\newcommand{\subsEq}{\subseteq}
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\newcommand{\subsNeq}{\subsetneq}
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\newcommand{\assign}{\coloneqq}
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\newcommand{\mybracketl}[1]{[}
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\newcommand{\mybracketr}[1]{]}
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\providecommand{\piValue}{3.1415926535897932384626433832795028841}
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\pgfplotscreateplotcyclelist{custom black white}{%
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solid, every mark/.append style={solid, fill=gray}, mark=*\\%
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dotted, every mark/.append style={solid, fill=gray}, mark=square*\\%
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densely dotted, every mark/.append style={solid, fill=gray}, mark=triangle*\\%
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dashdotted, every mark/.append style={solid, fill=gray}, mark=star\\%
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dashed, every mark/.append style={solid, fill=gray},mark=diamond*\\%
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loosely dashed, every mark/.append style={solid, fill=gray},mark=*\\%
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densely dashed, every mark/.append style={solid, fill=gray},mark=square*\\%
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dashdotted, every mark/.append style={solid, fill=gray},mark=otimes*\\%
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dashdotdotted, every mark/.append style={solid},mark=star\\%
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densely dashdotted,every mark/.append style={solid, fill=gray},mark=diamond*\\%
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}
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\begin{document}
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\begin{tikzpicture}
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\begin{axis}[xmin = , xmax = , ymin = 0, ymax = , xlabel = Number of Interpolation points, ylabel = time \mybracketl{}s\mybracketr{}, legend pos = south east, width = 14cm, height = 10cm, cycle list name = custom black white, xmode=log, ymode=log]
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