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authorJaron Kent-Dobias <jaron@kent-dobias.com>2022-07-10 19:51:14 +0200
committerJaron Kent-Dobias <jaron@kent-dobias.com>2022-07-10 19:51:14 +0200
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New figures.
Diffstat (limited to 'frsb_kac-rice.tex')
-rw-r--r--frsb_kac-rice.tex28
1 files changed, 18 insertions, 10 deletions
diff --git a/frsb_kac-rice.tex b/frsb_kac-rice.tex
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--- a/frsb_kac-rice.tex
+++ b/frsb_kac-rice.tex
@@ -887,8 +887,7 @@ become dominant over minima at a higher energy $E_\mathrm{th}=-1.287\,575\,114\l
The 1RSB complexity transitions to a RS description for dominant stationary points at an energy
$E_1=-1.273\,886\,852\ldots$. The highest energy for which the 1RSB description exists is $E_\mathrm{max}=-0.886\,029\,051\ldots$
-All these complexities can be seen plotted in
-Fig.~\ref{fig:2rsb.complexity}.
+The complexity along interesting trajectories is plotted in Fig.~\ref{fig:2rsb.complexity}.
@@ -907,9 +906,11 @@ Fig.~\ref{fig:2rsb.complexity}.
\begin{figure}
\centering
+ \hspace{-1em}
\includegraphics{figs/316_complexity_contour_1.pdf}
+ \hspace{-1em}
\includegraphics{figs/316_complexity_contour_2.pdf}
- \raisebox{4em}{\includegraphics{figs/316_complexity_contour_leg.pdf}}
+ \raisebox{3em}{\includegraphics{figs/316_complexity_contour_leg.pdf}}
\caption{
Complexity of the $3+16$ model in the energy $E$ and stability $\mu$
@@ -927,13 +928,20 @@ Fig.~\ref{fig:2rsb.complexity}.
\includegraphics{figs/316_detail.pdf}
\caption{
- Complexity of the $3+16$ model in the energy $E$ and stability $\mu$
- plane. The right shows a detail of the left. The black line shows $\mu_m$,
- which separates minima above from saddles below. The white lines show the
- dominant stationary points at each energy, dashed when they are described
- by a RS solution and solid for 1RSB. The red line shows the transition
- between RS and 1RSB descriptions. The gray line shows where the RS
- description predicts zero complexity.
+ Detail of the `phases' of the $3+16$ model complexity as a function of
+ energy and stability. Above the yellow marginal stability line the
+ complexity counts saddles of fixed index, while below that line it counts
+ minima of fixed stability. The shaded red region shows places where the
+ complexity is described by the 1RSB solution, while the shaded gray region
+ shows places where the complexity is described by the RS solution. In white
+ regions the complexity is zero. Several interesting energies are marked
+ with vertical black lines: the traditional `threshold' $E_\mathrm{th}$
+ where minima become most numerous, the algorithmic threshold
+ $E_\mathrm{alg}$ that bounds the performance of smooth algorithms, and the
+ average energies at the $2$RSB and $1$RSB equilibrium transitions $\langle
+ E\rangle_2$ and $\langle E\rangle_1$, respectively. Though the figure is
+ suggestive, $E_\mathrm{alg}$ lies slightly below the termination of the RS
+ -- 1RSB transition line.
}
\end{figure}