From 55528c1f1a11988897d46993756d6aa5873095af Mon Sep 17 00:00:00 2001
From: Yann Herklotz <git@yannherklotz.com>
Date: Thu, 9 Sep 2021 21:09:05 +0100
Subject: Figure -> Fig.

---
 related.tex | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

(limited to 'related.tex')

diff --git a/related.tex b/related.tex
index ee8e6b4..2ec5114 100644
--- a/related.tex
+++ b/related.tex
@@ -42,7 +42,7 @@
   \caption{Summary of related work}\label{fig:related_euler}
 \end{figure}
 
-A summary of the related works can be found in Figure~\ref{fig:related_euler}, which is represented as an Euler diagram.  The categories chosen for the Euler diagram are: whether the tool is usable, whether it takes a high-level software language as input, whether it has a correctness proof, and finally whether that proof is mechanised.  The goal of \vericert{} is to cover all of these categories.
+A summary of the related works can be found in Fig.~\ref{fig:related_euler}, which is represented as an Euler diagram.  The categories chosen for the Euler diagram are: whether the tool is usable, whether it takes a high-level software language as input, whether it has a correctness proof, and finally whether that proof is mechanised.  The goal of \vericert{} is to cover all of these categories.
 
 Most practical HLS tools~\citep{canis11_legup,xilinx20_vivad_high_synth,intel20_sdk_openc_applic,nigam20_predic_accel_desig_time_sensit_affin_types} fit into the category of usable tools that take high-level inputs.  On the other end of the spectrum, there are tools such as BEDROC~\citep{chapman92_verif_bedroc} for which there is no practical tool, and even though it is described as high-level synthesis, it more closely resembles today's logic synthesis tools.
 
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cgit