From 2a4e5510bb207c260e3287719c74be0c177f5532 Mon Sep 17 00:00:00 2001 From: Robin Clark Date: Tue, 8 May 2012 22:04:19 +0100 Subject: [PATCH] ........ march on through the snow..... dont stumble and fall its the death march of the wrong supervisoprs..... who want the fees and dont give a shit about you failing... or wasting your fucking time --- submission_thesis/CH5_Examples/copy.tex | 14 +++++++------- 1 file changed, 7 insertions(+), 7 deletions(-) diff --git a/submission_thesis/CH5_Examples/copy.tex b/submission_thesis/CH5_Examples/copy.tex index 05ce82f..675a3b9 100644 --- a/submission_thesis/CH5_Examples/copy.tex +++ b/submission_thesis/CH5_Examples/copy.tex @@ -1837,7 +1837,7 @@ The output is a voltage level in the analogue domain $-V$ or $+V$. We now form a {\fg} from $PD^1$ and $IC3$. -$$ G^1 = \{ PD^1, IC3 \} $$ +$$ G^1_0 = \{ PD^1, IC3 \} $$ We now analyse the {\fg} $G^1$ in table~\ref{tbl:DS2AS}. @@ -1865,17 +1865,17 @@ We now analyse the {\fg} $G^1$ in table~\ref{tbl:DS2AS}. We collect the symptoms of failure $\{ LOW, HIGH, LOW\_SLEW \}$. We can now derive a new component to represent the level conversion and call it $DL2AL$. -$$ DL2AL = D(G^1) $$ +$$ DL2AL^2 = D(G^1_0) $$ -$$ fm (DL2AL) = \{ LOW, HIGH, LOW\_SLEW \} $$ +$$ fm (DL2AL^2) = \{ LOW, HIGH, LOW\_SLEW \} $$ -\subsubsection{digital clocked memory (flip-flop).} - -This is a single component as a {\fg}, and we can state -$$ fm (DCM) = \{ HIGH, LOW, NOOP \} $$ +% \subsubsection{digital clocked memory (flip-flop).} +% +% This is a single component as a {\fg}, and we can state +% $$ fm (DCM) = \{ HIGH, LOW, NOOP \} $$ \subsection{First {\fgs} analysed}