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The Complexity of
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Finding Paths in Tournaments
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Till Tantau
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January 30th, 2004
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Introduction
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What are Tournaments?
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Tournaments Consist of Jousts Between Knights
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-
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-, and NC
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-{
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-{
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-.
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-3.6cm
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-{
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+Example Output
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-\end_inset
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- and
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+status collapsed
- are
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+begin{pgfpicture}{2.5cm}{-0.6cm}{7.5cm}{2.6cm}
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+
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- and
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+
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+}
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-.
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+\begin_layout Plain Layout
+2,4,6,8,10
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-easier
-\begin_inset Quotes erd
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- than
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+Variants of Path Finding Problems
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-.
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-\begin_inset Formula $\Lang{reach}\not\le_{\operatorname{m}}^{\Class{AC}^{0}}\Lang{reach}_{\operatorname{tourn}}$
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-.
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+\end_inset
-Let
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+\begin_inset Formula $t$
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-
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-\begin_inset Formula $T=(V,E)$
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+
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+4-
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+
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+
+Construction
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+
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+\end_inset
+
+ to
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-\begin_inset Formula $d$
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+\begin_layout Description
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-.
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+6-
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-\begin_inset Formula $\Lang{distance}_{\operatorname{tourn}}$
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+Optimization
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--complete.
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+\begin_inset space ~
+\end_inset
-\hfill
+\begin_inset Formula $t$
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+8-
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+Distance
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+\end_inset
-.
-\layout Pause
+ and
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+\begin_inset Formula $t$
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+\end_inset
-.
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-Proof That
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-\end_inset
+\begin_inset Formula $d$
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-\layout Standard
+?
+\end_layout
+\begin_layout Description
+\begin_inset Argument item:1
+status open
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-[t,onlytextwidth]
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+\begin_inset Formula $t$
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+\begin_inset Newline newline
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+approximately their distance.
+\end_layout
-5.7cm
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+\end_deeper
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+Review
+\end_layout
+\begin_layout Subsection
+Standard Complexity Classes
+\end_layout
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-{
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-\end_inset
+\begin_layout Plain Layout
+The Classes L and NL are Defined via
+\begin_inset Newline newline
+\end_inset
- to
-\begin_inset Formula $\Lang{distance}_{\operatorname{tourn}}$
-\end_inset
+Logspace Turing Machines
+\end_layout
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+
+\end_layout
+
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-\begin_inset Formula $\Lang{reach}$
-\end_inset
+
+\backslash
+tape{input tape (read only), $n$ symbols}{}{3401234*3143223=}}
+\end_layout
-?
-\layout Enumerate
+\begin_layout Plain Layout
-\begin_inset ERT
-status Inlined
+\backslash
+uncover<2->{%
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-<2-| alert@2-8>
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+\begin_layout Plain Layout
-Map
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+\backslash
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-\begin_inset Formula $G'$
-\end_inset
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-.
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+\backslash
+tape{}{output tape (write only)}{10690836937182}}
+\end_layout
+\begin_layout Plain Layout
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+}
+\end_layout
-\layout Standard
-<9-| alert@9>
-\end_inset
+\begin_layout Plain Layout
-Query:
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-?
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-{
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+
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+
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+
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-\begin_inset ERT
-status Inlined
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-<10-| alert@10-11>
-\end_inset
-A path in\SpecialChar ~
+\backslash
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+pgfarrowto}
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-\begin_inset Formula $G$
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-.
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- induces
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-\begin_inset Formula $G'$
-\end_inset
-.
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+\backslash
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-4.5cm
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-
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+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Block
+\begin_inset Argument 2
+status collapsed
+
+\begin_layout Plain Layout
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+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
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+
+\begin_layout Itemize
+reductions used in completeness proofs,
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+
+\begin_layout Itemize
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+
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+
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+
+\begin_layout Block
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+
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+
+
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+
+\begin_layout Itemize
+non-reachability in graphs,
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+
+\begin_layout Itemize
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+
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+
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+1
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+
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+
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
+The Complexity Class Hierarchy
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+
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+
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+
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+
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+
+\begin_layout Plain Layout
+
+
+\backslash
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+
+\begin_layout Plain Layout
+
+
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+
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+
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+}
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+
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+}
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+
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+Lang{reach}_{
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+
+\begin_layout Plain Layout
+
+
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+langat{0.975}{$
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+Lang{addition}$}}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+only<2>{
+\backslash
+langatother{1.6}{
+\backslash
+vbox{
+\backslash
+hbox{$
+\backslash
+Lang{division}$,}
+\backslash
+hbox{$
+\backslash
+Lang{parity}$}}}}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+only<3-5>{
+\backslash
+langat{3.375}{
+\backslash
+vbox{
+\backslash
+hbox{$
+\backslash
+Lang{distance}$,}
+\backslash
+hbox{$
+\backslash
+Lang{reach}$}}}}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+only<4->{
+\backslash
+langatother{2.375}{
+\backslash
+vbox{
+\backslash
+ignorespaces
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+hbox{$
+\backslash
+Lang{distance}_{
+\backslash
+operatorname{forest}}$,}
+\backslash
+ignorespaces
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+hbox{$
+\backslash
+Lang{reach}_{
+\backslash
+operatorname{forest}}$,}
+\backslash
+ignorespaces
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+hbox{$
+\backslash
+Lang{distance}_{
+\backslash
+operatorname{path}}$,}
+\backslash
+ignorespaces
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+hbox{$
+\backslash
+Lang{reach}_{
+\backslash
+operatorname{path}}$}}}
+\end_layout
+
+\begin_layout Plain Layout
+
+}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+only<5->{
+\backslash
+langat{0.975}{$
+\backslash
+Lang{reach}_{
+\backslash
+operatorname{tourn}}$}}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+only<6->{
+\backslash
+langat{3.375}{
+\backslash
+vbox{
+\backslash
+ignorespaces
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+hbox{$
+\backslash
+Lang{distance}_{
+\backslash
+operatorname{tourn}}$,}
+\backslash
+ignorespaces
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+hbox{$
+\backslash
+Lang{distance}$,}
+\backslash
+ignorespaces
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+hbox{$
+\backslash
+Lang{reach}$}}}
+\end_layout
+
+\begin_layout Plain Layout
+
+}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+only<7->{
+\backslash
+pgfsetdash{{1pt}}{0pt}%
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+langat{2.375}{``$
+\backslash
+Lang{approx}_{
+\backslash
+operatorname{tourn}}$''}
+\end_layout
+
+\begin_layout Plain Layout
+
+}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+end{pgfpicture}
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\end_deeper
+\begin_layout Standard
+\begin_inset Separator plain
+\end_inset
+
+
+\end_layout
+
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
+The Circuit Complexity Classes AC
+\begin_inset Formula $^{0}$
+\end_inset
+
+, NC
+\begin_inset Formula $^{1}$
+\end_inset
+
+, and NC
+\begin_inset Formula $^{2}$
+\end_inset
+
+
+\begin_inset Newline newline
+\end_inset
+
+Limit the Circuit Depth
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Standard
+\begin_inset ERT
+status collapsed
+
+\begin_layout Plain Layout
+
+
+\backslash
+setlength
+\backslash
+leftmargini{1em}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+nointerlineskip
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_layout Columns
+\begin_inset Argument 1
+status open
+
+\begin_layout Plain Layout
+t
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Column
+3.6cm
+\end_layout
+
+\begin_layout Block
+\begin_inset Argument 2
+status open
+
+\begin_layout Plain Layout
+Circuit Class
+\begin_inset Formula $\Class{AC}^{0}$
+\end_inset
+
+
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Itemize
+\begin_inset Formula $O(1)$
+\end_inset
+
+ depth
+\end_layout
+
+\begin_layout Itemize
+unbounded fan-in
+\end_layout
+
+\end_deeper
+\begin_layout Examples
+
+\end_layout
+
+\begin_deeper
+\begin_layout Itemize
+\begin_inset Formula $\Lang{addition}\in\Class{AC}^{0}$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Itemize
+\begin_inset Formula $\Lang{parity}\notin\Class{AC}^{0}$
+\end_inset
+
+.
+\end_layout
+
+\end_deeper
+\begin_layout Pause
+
+\end_layout
+
+\begin_layout Column
+3.6cm
+\end_layout
+
+\begin_layout Block
+\begin_inset Argument 2
+status open
+
+\begin_layout Plain Layout
+Circuit Class
+\begin_inset Formula $\Class{NC}^{1}$
+\end_inset
+
+
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Itemize
+\begin_inset Formula $O(\log n)$
+\end_inset
+
+ depth
+\end_layout
+
+\begin_layout Itemize
+bounded fan-in
+\end_layout
+
+\end_deeper
+\begin_layout Examples
+
+\end_layout
+
+\begin_deeper
+\begin_layout Itemize
+\begin_inset Formula $\Lang{parity}\in\Class{NC}^{1}$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Itemize
+\begin_inset Formula $\Lang{mutiply}\in\Class{NC}^{1}$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Itemize
+\begin_inset Formula $\Lang{divide}\in\Class{NC}^{1}$
+\end_inset
+
+.
+\end_layout
+
+\end_deeper
+\begin_layout Pause
+
+\end_layout
+
+\begin_layout Column
+3.6cm
+\end_layout
+
+\begin_layout Block
+\begin_inset Argument 2
+status open
+
+\begin_layout Plain Layout
+Circuit Class
+\begin_inset Formula $\Class{NC}^{2}$
+\end_inset
+
+
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Itemize
+\begin_inset Formula $O(\log^{2}n)$
+\end_inset
+
+ depth
+\end_layout
+
+\begin_layout Itemize
+bounded fan-in
+\end_layout
+
+\end_deeper
+\begin_layout Examples
+
+\end_layout
+
+\begin_deeper
+\begin_layout Itemize
+\begin_inset Formula $\Class{NL}\subseteq\Class{NC}^{2}$
+\end_inset
+
+.
+\end_layout
+
+\end_deeper
+\end_deeper
+\end_deeper
+\begin_layout AgainFrame
+\begin_inset Argument 1
+status collapsed
+
+\begin_layout Plain Layout
+
+2
+\end_layout
+
+\end_inset
+
+hierarchy
+\end_layout
+
+\begin_layout Subsection
+Standard Complexity Results on Finding Paths
+\end_layout
+
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
+All Variants of Finding Paths in Directed Graphs
+\begin_inset Newline newline
+\end_inset
+
+Are Equally Difficult
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Fact
+\begin_inset Formula $\Lang{reach}$
+\end_inset
+
+ and
+\begin_inset Formula $\Lang{distance}$
+\end_inset
+
+ are
+\begin_inset Formula $\Class{NL}$
+\end_inset
+
+-complete.
+
+\end_layout
+
+\begin_layout Pause
+
+\end_layout
+
+\begin_layout Corollary
+For directed graphs, we can solve
+\end_layout
+
+\begin_deeper
+\begin_layout Itemize
+the reachability problem in logspace iff
+\begin_inset Formula $\Class{L}=\Class{NL}$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Itemize
+the construction problem in logspace iff
+\begin_inset Formula $\Class{L}=\Class{NL}$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Itemize
+the optimization problem in logspace iff
+\begin_inset Formula $\Class{L}=\Class{NL}$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Itemize
+the approximation problem in logspace iff
+\begin_inset Formula $\Class{L}=\Class{NL}$
+\end_inset
+
+.
+\end_layout
+
+\end_deeper
+\end_deeper
+\begin_layout AgainFrame
+\begin_inset Argument 1
+status collapsed
+
+\begin_layout Plain Layout
+
+3
+\end_layout
+
+\end_inset
+
+hierarchy
+\end_layout
+
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
+Finding Paths in Forests and Directed Paths is Easy,
+\begin_inset Newline newline
+\end_inset
+
+But Not Trivial
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Fact
+\begin_inset Formula $\Lang{reach}_{\operatorname{forest}}$
+\end_inset
+
+ and
+\begin_inset Formula $\Lang{distance}_{\operatorname{forest}}$
+\end_inset
+
+ are
+\begin_inset Formula $\Class{L}$
+\end_inset
+
+-complete.
+\end_layout
+
+\begin_layout Standard
+\begin_inset Separator plain
+\end_inset
+
+
+\end_layout
+
+\begin_layout Fact
+\begin_inset Formula $\Lang{reach}_{\operatorname{path}}$
+\end_inset
+
+ and
+\begin_inset Formula $\Lang{distance}_{\operatorname{path}}$
+\end_inset
+
+ are
+\begin_inset Formula $\Class{L}$
+\end_inset
+
+-complete.
+\end_layout
+
+\end_deeper
+\begin_layout AgainFrame
+\begin_inset Argument 1
+status collapsed
+
+\begin_layout Plain Layout
+
+4
+\end_layout
+
+\end_inset
+
+hierarchy
+\end_layout
+
+\begin_layout Section
+Finding Paths in Tournaments
+\end_layout
+
+\begin_layout Subsection
+Complexity of: Does a Path Exist?
+\end_layout
+
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
+Definition of the Tournament Reachability Problem
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Definition
+Let
+\color none
+
+\color red
+
+\begin_inset Formula $\Lang{reach}_{\operatorname{tourn}}$
+\end_inset
+
+
+\color none
+
+\color inherit
+contain all triples
+\begin_inset Formula $(T,s,t)$
+\end_inset
+
+ such that
+\end_layout
+
+\begin_deeper
+\begin_layout Enumerate
+\begin_inset Formula $T=(V,E)$
+\end_inset
+
+ is a tournament and
+\end_layout
+
+\begin_layout Enumerate
+there exists a path from
+\begin_inset space ~
+\end_inset
+
+
+\begin_inset Formula $s$
+\end_inset
+
+ to
+\begin_inset space ~
+\end_inset
+
+
+\begin_inset Formula $t$
+\end_inset
+
+.
+\end_layout
+
+\end_deeper
+\end_deeper
+\begin_layout Standard
+\begin_inset Separator plain
+\end_inset
+
+
+\end_layout
+
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
+The Tournament Reachability Problem is Very Easy
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Theorem
+\begin_inset Formula $\Lang{reach}_{\operatorname{tourn}}\in\Class{AC}^{0}$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Pause
+
+\end_layout
+
+\begin_layout AlertBlock
+\begin_inset Argument 2
+status collapsed
+
+\begin_layout Plain Layout
+Implications
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Itemize
+The problem is
+\begin_inset Quotes eld
+\end_inset
+
+easier
+\begin_inset Quotes erd
+\end_inset
+
+ than
+\begin_inset Formula $\Lang{reach}$
+\end_inset
+
+ and even
+\begin_inset Formula $\Lang{reach}_{\operatorname{path}}$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Itemize
+\begin_inset Formula $\Lang{reach}\not\le_{\operatorname{m}}^{\Class{AC}^{0}}\Lang{reach}_{\operatorname{tourn}}$
+\end_inset
+
+.
+\end_layout
+
+\end_deeper
+\end_deeper
+\begin_layout AgainFrame
+\begin_inset Argument 1
+status open
+
+\begin_layout Plain Layout
+
+5
+\end_layout
+
+\end_inset
+
+hierarchy
+\end_layout
+
+\begin_layout Subsection
+Complexity of: Construct a Shortest Path
+\end_layout
+
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
+Finding a Shortest Path Is as Difficult as
+\begin_inset Newline newline
+\end_inset
+
+the Distance Problem
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Definition
+Let
+\color none
+
+\color red
+
+\begin_inset Formula $\Lang{distance}_{\operatorname{tourn}}$
+\end_inset
+
+
+\color none
+
+\color inherit
+contain all tuples
+\begin_inset Formula $(T,s,t,d)$
+\end_inset
+
+ such that
+\end_layout
+
+\begin_deeper
+\begin_layout Enumerate
+\begin_inset Formula $T=(V,E)$
+\end_inset
+
+ is a tournament in which
+\end_layout
+
+\begin_layout Enumerate
+the distance of
+\begin_inset Formula $s$
+\end_inset
+
+ and
+\begin_inset space ~
+\end_inset
+
+
+\begin_inset Formula $t$
+\end_inset
+
+ is at most
+\begin_inset space ~
+\end_inset
+
+
+\begin_inset Formula $d$
+\end_inset
+
+.
+\end_layout
+
+\end_deeper
+\end_deeper
+\begin_layout Standard
+\begin_inset Separator plain
+\end_inset
+
+
+\end_layout
+
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
+The Tournament Distance Problem is Hard
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Theorem
+\begin_inset Formula $\Lang{distance}_{\operatorname{tourn}}$
+\end_inset
+
+ is
+\begin_inset Formula $\Class{NL}$
+\end_inset
+
+-complete.
+\end_layout
+
+\begin_layout Standard
+\begin_inset space \hfill{}
+\end_inset
+
+
+\begin_inset ERT
+status collapsed
+
+\begin_layout Plain Layout
+
+
+\backslash
+hyperlink{hierarchy<6>}{
+\backslash
+beamerskipbutton{Skip Proof}}
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_layout Pause
+
+\end_layout
+
+\begin_layout Corollary
+Shortest path in tournaments can be constructed
+\begin_inset Newline newline
+\end_inset
+
+in logarithmic space, iff
+\begin_inset Formula $\Class{L}=\Class{NL}$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Pause
+
+\end_layout
+
+\begin_layout Corollary
+\begin_inset Formula $\Lang{distance}\le_{\operatorname{m}}^{\Class{AC}^{0}}\Lang{distance}_{\operatorname{tourn}}$
+\end_inset
+
+.
+\end_layout
+
+\end_deeper
+\begin_layout Standard
+\begin_inset Separator plain
+\end_inset
+
+
+\end_layout
+
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
+Proof That
+\begin_inset Formula $\Lang{distance}_{\operatorname{tourn}}$
+\end_inset
+
+ is NL-complete
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Standard
+\begin_inset ERT
+status collapsed
+
+\begin_layout Plain Layout
+
+
+\backslash
+nointerlineskip
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_layout Columns
+\begin_inset Argument 1
+status open
+
+\begin_layout Plain Layout
+t,onlytextwidth
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Column
+5.7cm
+\end_layout
+
+\begin_layout Standard
+\begin_inset ERT
+status collapsed
+
+\begin_layout Plain Layout
+
+
+\backslash
+setlength
+\backslash
+leftmargini{1.5em}
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_layout Block
+\begin_inset Argument 2
+status open
+
+\begin_layout Plain Layout
+Reduce
+\begin_inset Formula $\Lang{reach}$
+\end_inset
+
+ to
+\begin_inset Formula $\Lang{distance}_{\operatorname{tourn}}$
+\end_inset
+
+
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Enumerate
+\begin_inset Argument item:2
+status open
+
+\begin_layout Plain Layout
+
+alert@1
+\end_layout
+
+\end_inset
+
+Is input
+\begin_inset Formula $(G,s,t)$
+\end_inset
+
+ in
+\begin_inset Formula $\Lang{reach}$
+\end_inset
+
+?
+\end_layout
+
+\begin_layout Enumerate
+\begin_inset Argument item:2
+status open
+
+\begin_layout Plain Layout
+
+2-| alert@2-8
+\end_layout
+
+\end_inset
+
+Map
+\begin_inset Formula $G$
+\end_inset
+
+ to
+\begin_inset Formula $G'$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Enumerate
+\begin_inset Argument item:2
+status open
+
+\begin_layout Plain Layout
+
+9-| alert@9
+\end_layout
+
+\end_inset
+
+Query:
+\begin_inset Newline newline
+\end_inset
+
+
+\begin_inset Formula $(G',s',t',3)\in\Lang{distance}_{\operatorname{tourn}}$
+\end_inset
+
+?
+\end_layout
+
+\end_deeper
+\begin_layout Standard
+\begin_inset Separator plain
+\end_inset
+
+
+\end_layout
+
+\begin_layout Block
+\begin_inset Argument 2
+status open
+
+\begin_layout Plain Layout
+Correctness
+\end_layout
+
+\end_inset
+
+
+\begin_inset Argument 1
+status open
+
+\begin_layout Plain Layout
+
+10-
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Enumerate
+\begin_inset Argument item:2
+status open
+
+\begin_layout Plain Layout
+
+10-| alert@10-11
+\end_layout
+
+\end_inset
+
+A path in
+\begin_inset space ~
+\end_inset
+
+
+\begin_inset Formula $G$
+\end_inset
+
+ induces
+\begin_inset Newline newline
+\end_inset
+
+a length-3 path in
+\begin_inset space ~
+\end_inset
+
+
+\begin_inset Formula $G'$
+\end_inset
+
+.
+\end_layout
+
+\begin_layout Enumerate
+\begin_inset Argument item:2
+status open
+
+\begin_layout Plain Layout
+
+12-| alert@12-13
+\end_layout
+
+\end_inset
+
+A length-3 path in
+\begin_inset space ~
+\end_inset
+
+
+\begin_inset Formula $G'$
+\end_inset
+
+ induces
+\begin_inset Newline newline
+\end_inset
+
+a path in
+\begin_inset space ~
+\end_inset
+
+
+\begin_inset Formula $G'$
+\end_inset
+
+.
+\end_layout
+
+\end_deeper
+\begin_layout Column
+4.5cm
+\end_layout
+
+\begin_layout Example
+\begin_inset ERT
+status collapsed
+
+\begin_layout Plain Layout
+
+
+\backslash
+begin{pgfpicture}{0cm}{-1.25cm}{4.5cm}{3.75cm}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+color{beamerexample}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+pgfsetlinewidth{0.6pt}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+graphnode{A}{
+\backslash
+pgfxy(1,3.3)}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+graphnode{B}{
+\backslash
+pgfxy(2,3.3)}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+graphnode{C}{
+\backslash
+pgfxy(3,3.3)}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+graphnode{D}{
+\backslash
+pgfxy(4,3.3)}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+color{white}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+pgfputat{
+\backslash
+pgfnodecenter{A}}{
+\backslash
+pgfbox[center,center]{$s$}}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+pgfputat{
+\backslash
+pgfnodecenter{D}}{
+\backslash
+pgfbox[center,center]{$t$}}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+color{beamerexample}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
+pgfsetendarrow{
+\backslash
+pgfarrowto}
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
pgfnodesetsepstart{2pt}
-\layout Standard
-
-\backslash
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
pgfnodesetsepend{2pt}
-\layout Standard
-
-\backslash
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
alert<3>{
-\backslash
+\backslash
pgfnodeconnline{B}{A}}
-\layout Standard
-
-\backslash
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
alert<4>{
-\backslash
+\backslash
pgfnodeconnline{B}{C}}
-\layout Standard
-
-\backslash
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
alert<5,10-11,13>{
-\backslash
+\backslash
pgfnodeconnline{C}{D}}
-\layout Standard
-
-\backslash
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
alert<6,10-11,13>{
-\backslash
+\backslash
pgfnodeconncurve{A}{C}{45}{135}{15pt}{15pt}}
-\layout Standard
-
-\layout Standard
-
-\backslash
+\end_layout
+
+\begin_layout Plain Layout
+
+
+\backslash
pgfputat{
-\backslash
+\backslash
pgfxy(0,3.3)}{
-\backslash
+\backslash
pgfbox[left,center]{$G
-\backslash
+\backslash
colon$}}
-\layout Standard
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Complexity of: Approximating the Shortest Path
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Approximators Compute Paths that Are Nearly As Short As a Shortest Path
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-An
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a path from
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There Exists a Logspace Approximation Scheme for
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In tournaments, paths can be constructed in logarithmic space.
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+This is some program code:
+\end_layout
+
+\begin_deeper
+\begin_layout Standard
+\begin_inset listings
+lstparams "extendedchars=true,language=Python,numbers=left,stepnumber=3,tabsize=4"
+inline false
+status open
+
+\begin_layout Plain Layout
+
+def func(param):
+\end_layout
+
+\begin_layout Plain Layout
+
+ 'this is a python function'
+\end_layout
+
+\begin_layout Plain Layout
+
+ pass
+\end_layout
+
+\begin_layout Plain Layout
+
+def func(param):
+\end_layout
+
+\begin_layout Plain Layout
+
+'This is a German word: Tschüs'
+\end_layout
+
+\begin_layout Plain Layout
+
+pass
+\end_layout
+
+\begin_layout Plain Layout
+
+def func(param):
+\end_layout
+
+\begin_layout Plain Layout
+
+'this is a python function'
+\end_layout
+
+\begin_layout Plain Layout
+
+pass
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\end_deeper
+\begin_layout Section*
Summary
-\layout Subsection*
+\end_layout
+\begin_layout Subsection*
Summary
-\layout BeginFrame
+\end_layout
+
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+\begin_layout Plain Layout
Summary
-\layout Block
+\end_layout
+\end_inset
-\begin_inset ERT
-status Inlined
-\layout Standard
-{Summary}
-\end_inset
+\end_layout
+
+\begin_deeper
+\begin_layout Block
+\begin_inset Argument 2
+status collapsed
+\begin_layout Plain Layout
+Summary
+\end_layout
+
+\end_inset
-\begin_deeper
-\layout Itemize
-Tournament
+\end_layout
+
+\begin_deeper
+\begin_layout Itemize
+Tournament
+\color none
+
\color red
reachability
-\color default
- is in
-\color red
+\color none
+
+\color inherit
+is in
+\color none
+\color red
+
\begin_inset Formula $\Class{AC}^{0}$
-\end_inset
+\end_inset
-\color default
+\color inherit
.
-\layout Itemize
+\end_layout
-There exists a
+\begin_layout Itemize
+There exists a
+\color none
+
\color red
logspace approximation scheme
-\color default
- for
+\color none
+
+\color inherit
+for
+\color none
+
\color red
approximating
-\color default
- shortest paths in tournaments.
-\layout Itemize
+\color none
+
+\color inherit
+shortest paths in tournaments.
+\end_layout
-Finding
+\begin_layout Itemize
+Finding
+\color none
+
\color red
shortest paths
-\color default
- in tournaments is
-\color red
+\color none
+\color inherit
+in tournaments is
+\color none
+
+\color red
+
\begin_inset Formula $\Class{NL}$
-\end_inset
+\end_inset
-complete
-\color default
+\color inherit
.
-\end_deeper
-\layout Separator
+\end_layout
-\layout Block
+\end_deeper
+\begin_layout Standard
+\begin_inset Separator plain
+\end_inset
-\begin_inset ERT
-status Inlined
+\end_layout
+
+\begin_layout Block
+\begin_inset Argument 2
+status collapsed
+
+\begin_layout Plain Layout
+Outlook
+\end_layout
-\layout Standard
-{Outlook}
-\end_inset
+\end_inset
-\begin_deeper
-\layout Itemize
+\end_layout
+\begin_deeper
+\begin_layout Itemize
The same results apply to graphs with
-\newline
+\begin_inset Newline newline
+\end_inset
+
bounded independence number.
-\hfill
+\begin_inset space \hfill{}
+\end_inset
+
\begin_inset ERT
-status Inlined
+status collapsed
-\layout Standard
+\begin_layout Plain Layout
-\backslash
+
+\backslash
hyperlink{independence}{
-\backslash
+\backslash
beamergotobutton{More Details}}
-\end_inset
+\end_layout
+
+\end_inset
-\layout Itemize
+\end_layout
+\begin_layout Itemize
The complexity of finding paths in undirected graphs
-\newline
+\begin_inset Newline newline
+\end_inset
+
is partly open.
-\hfill
+\begin_inset space \hfill{}
+\end_inset
+
\begin_inset ERT
-status Inlined
+status collapsed
-\layout Standard
+\begin_layout Plain Layout
-\backslash
+
+\backslash
hyperlink{undirected}{
-\backslash
+\backslash
beamergotobutton{More Details}}
-\end_inset
+\end_layout
+
+\end_inset
-\end_deeper
-\layout Subsection*
+\end_layout
+\end_deeper
+\end_deeper
+\begin_layout Subsection*
For Further Reading
-\layout BeginFrame
+\end_layout
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
For Further Reading
-\layout Standard
+\end_layout
+
+\end_inset
+\end_layout
+
+\begin_deeper
+\begin_layout Standard
\begin_inset ERT
-status Inlined
+status open
+
+\begin_layout Plain Layout
-\layout Standard
-\backslash
+\backslash
beamertemplatebookbibitems
-\end_inset
+\end_layout
+\end_inset
-\layout Bibliography
-\bibitem {Moon1968}
-\SpecialChar ~
+\end_layout
+
+\begin_layout Bibliography
+\begin_inset CommandInset bibitem
+LatexCommand bibitem
+key "Moon1968"
+literal "true"
+
+\end_inset
+
+
+\begin_inset space ~
+\end_inset
+
John Moon.
\begin_inset ERT
-status Collapsed
+status collapsed
+
+\begin_layout Plain Layout
-\layout Standard
-\backslash
+\backslash
newblock
-\end_inset
+\end_layout
+
+\end_inset
-\emph on
+\emph on
Topics on Tournaments.
-\emph default
+\emph default
\begin_inset ERT
-status Collapsed
+status collapsed
+
+\begin_layout Plain Layout
-\layout Standard
-\backslash
+\backslash
newblock
-\end_inset
+\end_layout
+
+\end_inset
Holt, Rinehart, and Winston, 1968.
\begin_inset ERT
-status Inlined
+status collapsed
+
+\begin_layout Plain Layout
-\layout Standard
-\backslash
+\backslash
beamertemplatearticlebibitems
-\end_inset
+\end_layout
+
+\end_inset
+
+\end_layout
-\layout Bibliography
-\bibitem {NickelsenT2002}
+\begin_layout Bibliography
+\begin_inset CommandInset bibitem
+LatexCommand bibitem
+key "NickelsenT2002"
+literal "true"
+
+\end_inset
+
+
+\begin_inset space ~
+\end_inset
-\SpecialChar ~
Arfst Nickelsen and Till Tantau.
\begin_inset ERT
-status Collapsed
+status collapsed
+
+\begin_layout Plain Layout
-\layout Standard
-\backslash
+\backslash
newblock
-\end_inset
+\end_layout
+
+\end_inset
On reachability in graphs with bounded independence number.
\begin_inset ERT
-status Collapsed
+status collapsed
+
+\begin_layout Plain Layout
-\layout Standard
-\backslash
+\backslash
newblock
-\end_inset
+\end_layout
+
+\end_inset
In
-\emph on
+\emph on
Proc.
of COCOON 2002
-\emph default
+\emph default
, Springer-Verlag, 2002.
-\layout Bibliography
-\bibitem {Tantau2004b}
+\end_layout
+
+\begin_layout Bibliography
+\begin_inset CommandInset bibitem
+LatexCommand bibitem
+key "Tantau2004b"
+literal "true"
+
+\end_inset
+
+
+\begin_inset space ~
+\end_inset
-\SpecialChar ~
Till Tantau
\begin_inset ERT
-status Collapsed
+status collapsed
+
+\begin_layout Plain Layout
-\layout Standard
-\backslash
+\backslash
newblock
-\end_inset
+\end_layout
+
+\end_inset
A logspace approximation scheme for the shortest path problem for graphs
with bounded independence number.
\begin_inset ERT
-status Collapsed
+status collapsed
+
+\begin_layout Plain Layout
-\layout Standard
-\backslash
+\backslash
newblock
-\end_inset
+\end_layout
+
+\end_inset
In
-\emph on
+\emph on
Proc.
of STACS 2004
-\emph default
+\emph default
, Springer-Verlag, 2004.
\begin_inset ERT
-status Collapsed
+status collapsed
+
+\begin_layout Plain Layout
-\layout Standard
-\backslash
+\backslash
newblock
-\end_inset
+\end_layout
- In press.
-\layout EndFrame
+\end_inset
-\layout Standard
-\start_of_appendix
+ In press.
+\end_layout
+\end_deeper
+\begin_layout Standard
+\start_of_appendix
\begin_inset ERT
-status Inlined
+status open
+
+\begin_layout Plain Layout
+
-\layout Standard
+\backslash
+AtBeginSubsection[]{}
+\end_layout
-\backslash
-AtBeginSubsection[]{}
-\end_inset
+\end_inset
-\layout Section
+\end_layout
+\begin_layout Section
Appendix
-\layout Subsection
+\end_layout
+\begin_layout Subsection
Graphs With Bounded Independence Number
-\layout BeginFrame
+\end_layout
+\begin_layout Frame
+\begin_inset Argument 3
+status collapsed
-\begin_inset ERT
-status Inlined
+\begin_layout Plain Layout
+label=independence
+\end_layout
+
+\end_inset
-\layout Standard
-[label=independence]
-\end_inset
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
Definition of Independence Number of a Graph
-\layout Definition
+\end_layout
+
+\end_inset
-The
+
+\end_layout
+
+\begin_deeper
+\begin_layout Definition
+The
+\color none
+
\color red
independence number
-\color default
+\color none
+\color inherit
+
\begin_inset Formula $\alpha(G)$
-\end_inset
+\end_inset
of a directed graph
-\newline
+\begin_inset Newline newline
+\end_inset
+
is the maximum number of vertices we can pick,
-\newline
+\begin_inset Newline newline
+\end_inset
+
such that there is no edge between them.
-\layout Example
+\end_layout
+\begin_layout Example
Tournaments have independence number 1.
-\layout BeginFrame
+\end_layout
+
+\end_deeper
+\begin_layout Standard
+\begin_inset Separator plain
+\end_inset
+
+\end_layout
+
+\begin_layout Frame
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
The Results for Tournaments also Apply to
-\newline
+\begin_inset Newline newline
+\end_inset
+
Graphs With Bounded Independence Number
-\layout Theorem
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Theorem
+For each
+\begin_inset space ~
+\end_inset
-For each\SpecialChar ~
\begin_inset Formula $k$
-\end_inset
+\end_inset
-,
+,
+\color none
+
\color red
reachability
-\color default
- in graphs with independence number
-\newline
-at most\SpecialChar ~
+\color none
+
+\color inherit
+in graphs with independence number
+\begin_inset Newline newline
+\end_inset
+
+at most
+\begin_inset space ~
+\end_inset
+
\begin_inset Formula $k$
-\end_inset
+\end_inset
is in
\begin_inset Formula $\Class{AC}^{0}$
-\end_inset
+\end_inset
.
-\layout Separator
+\end_layout
+
+\begin_layout Standard
+\begin_inset Separator plain
+\end_inset
+
+
+\end_layout
-\layout Theorem
+\begin_layout Theorem
+For each
+\begin_inset space ~
+\end_inset
-For each\SpecialChar ~
\begin_inset Formula $k$
-\end_inset
+\end_inset
-, there exists a
+, there exists a
+\color none
+
\color red
logspace approximation scheme
-\color default
- for approximating the shortest path in graphs with independence number
- at most\SpecialChar ~
+\color none
+
+\color inherit
+for approximating the shortest path in graphs with independence number at
+ most
+\begin_inset space ~
+\end_inset
+
\begin_inset Formula $k$
-\end_inset
+\end_inset
+
+\end_layout
-\layout Separator
+\begin_layout Standard
+\begin_inset Separator plain
+\end_inset
-\layout Theorem
-For each\SpecialChar ~
+\end_layout
+
+\begin_layout Theorem
+For each
+\begin_inset space ~
+\end_inset
+
\begin_inset Formula $k$
-\end_inset
+\end_inset
-, finding the
+, finding the
+\color none
+
\color red
shortest path
-\color default
- in graphs with independence number at most\SpecialChar ~
+\color none
+
+\color inherit
+in graphs with independence number at most
+\begin_inset space ~
+\end_inset
+
\begin_inset Formula $k$
-\end_inset
+\end_inset
- is
+ is
+\color none
+
\color red
\begin_inset Formula $\Class{NL}$
-\end_inset
+\end_inset
-complete
-\color default
+\color inherit
.
-\layout Subsection
+\end_layout
+\end_deeper
+\begin_layout Subsection
Finding Paths in Undirected Graphs
-\layout BeginFrame
+\end_layout
+\begin_layout Frame
+\begin_inset Argument 1
+status collapsed
-\begin_inset ERT
-status Inlined
+\begin_layout Plain Layout
-\layout Standard
-<1-2>[label=undirected]
-\end_inset
+1-2
+\end_layout
+\end_inset
+
+
+\begin_inset Argument 3
+status collapsed
+
+\begin_layout Plain Layout
+label=undirected
+\end_layout
+
+\end_inset
+
+
+\begin_inset Argument 4
+status open
+
+\begin_layout Plain Layout
The Complexity of Finding Paths in Undirected Graphs
-\newline
+\begin_inset Newline newline
+\end_inset
+
Is Party Unknown.
-\layout Fact
+\end_layout
+\end_inset
+
+\end_layout
+
+\begin_deeper
+\begin_layout Fact
\begin_inset Formula $\Lang{reach}_{\operatorname{undirected}}$
-\end_inset
+\end_inset
is
\begin_inset Formula $\Class{SL}$
-\end_inset
+\end_inset
-complete.
-\layout Corollary
+\end_layout
+\begin_layout Corollary
For undirected graphs, we can solve
-\begin_deeper
-\layout Itemize
+\end_layout
+\begin_deeper
+\begin_layout Itemize
the reachability problem in logspace iff
\begin_inset Formula $\Class L=\Class{SL}$
-\end_inset
+\end_inset
,
-\layout Itemize
+\end_layout
+\begin_layout Itemize
the construction problem in logspace iff
-\begin_inset ERT
-status Inlined
+\begin_inset Flex Alternative
+status open
+
+\begin_layout Plain Layout
+\begin_inset Argument 1
+status open
+
+\begin_layout Plain Layout
+
+1
+\end_layout
+
+\end_inset
+
+
+\begin_inset Argument 2
+status open
+
+\begin_layout Plain Layout
+?
+\end_layout
+
+\end_inset
+
+
+\begin_inset Flex Alert
+status open
+
+\begin_layout Plain Layout
+\begin_inset Formula $\Class L=\Class{SL}$
+\end_inset
-\layout Standard
-\backslash
-alt<1>{?}{
-\backslash
-alert{$
-\backslash
-Class L =
-\backslash
-Class{SL}$}}
-\end_inset
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\end_inset
,
-\layout Itemize
+\end_layout
+\begin_layout Itemize
the optimization problem in logspace iff
-\begin_inset ERT
-status Inlined
+\begin_inset Flex Alternative
+status open
+
+\begin_layout Plain Layout
+\begin_inset Argument 1
+status open
+
+\begin_layout Plain Layout
+
+1
+\end_layout
+
+\end_inset
+
+
+\begin_inset Argument 2
+status open
+
+\begin_layout Plain Layout
+?
+\end_layout
+
+\end_inset
+
+
+\begin_inset Flex Alert
+status open
-\layout Standard
+\begin_layout Plain Layout
+\begin_inset Formula $\Class L=\Class{NL}$
+\end_inset
-\backslash
-alt<1>{?}{
-\backslash
-alert{$
-\backslash
-Class L =
-\backslash
-Class{NL}$}}
-\end_inset
+
+\end_layout
+
+\end_inset
+
+
+\end_layout
+
+\end_inset
,
-\layout Itemize
+\end_layout
+\begin_layout Itemize
the approximation problem in logspace iff ?.
-\end_deeper
-\layout Subsection
+\end_layout
+\end_deeper
+\end_deeper
+\begin_layout Subsection
The Approximation Scheme is Optimal
-\layout BeginFrame
+\end_layout
+\begin_layout Frame
+\begin_inset Argument 3
+status collapsed
+
+\begin_layout Plain Layout
+label=optimality
+\end_layout
+
+\end_inset
-\begin_inset ERT
-status Inlined
-\layout Standard
-[label=optimality]
-\end_inset
+\begin_inset Argument 4
+status open
+\begin_layout Plain Layout
The Approximation Scheme is Optimal
-\layout Theorem
+\end_layout
+\end_inset
+
+
+\end_layout
+
+\begin_deeper
+\begin_layout Theorem
Suppose there exists an approximation scheme for
\begin_inset Formula $\Lang{tournament-shortest-path}$
-\end_inset
+\end_inset
that needs space
\begin_inset Formula $O\bigl(\log|V|\log^{1-\epsilon}\frac{1}{r-1}\bigr)$
-\end_inset
+\end_inset
.
Then
\begin_inset Formula $\Class{NL}\subseteq\Class{DSPACE}\bigl[\log^{2-\epsilon}n\bigr]$
-\end_inset
+\end_inset
.
-\layout Proof
+\end_layout
+
+\begin_layout Proof
-\begin_deeper
-\layout Enumerate
+\end_layout
+\begin_deeper
+\begin_layout Enumerate
Suppose the approximation scheme exists.
-\newline
+\begin_inset Newline newline
+\end_inset
+
We show
\begin_inset Formula $\Lang{distance}_{\operatorname{tourn}}\in\Class{DSPACE}\bigl[\log^{2-\epsilon}n\bigr]$
-\end_inset
+\end_inset
.
-\layout Enumerate
+\end_layout
+\begin_layout Enumerate
Let
\begin_inset Formula $(T,s,t)$
-\end_inset
+\end_inset
be an input.
Let
\begin_inset Formula $n$
-\end_inset
+\end_inset
be the number of vertices.
-\layout Enumerate
+\end_layout
+\begin_layout Enumerate
Run the approximation scheme for
\begin_inset Formula $r:=1+\smash{\frac{1}{n+1}}$
-\end_inset
+\end_inset
.
-\newline
+\begin_inset Newline newline
+\end_inset
+
This needs space
\begin_inset Formula $\smash{O(\log^{2-\epsilon}n)}$
-\end_inset
+\end_inset
.
-\layout Enumerate
+\end_layout
+\begin_layout Enumerate
The resulting path has optimal length.
\begin_inset ERT
-status Collapsed
+status collapsed
-\layout Standard
+\begin_layout Plain Layout
-\backslash
+
+\backslash
qedhere
-\end_inset
+\end_layout
+
+\end_inset
-\end_deeper
-\layout EndFrame
+\end_layout
-\the_end
+\end_deeper
+\end_deeper
+\end_body
+\end_document