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-rw-r--r--doc/system/taler/design.tex2
-rw-r--r--doc/system/taler/implementation.tex3
2 files changed, 2 insertions, 3 deletions
diff --git a/doc/system/taler/design.tex b/doc/system/taler/design.tex
index 0d2484072..d78acac19 100644
--- a/doc/system/taler/design.tex
+++ b/doc/system/taler/design.tex
@@ -149,7 +149,7 @@ customers that lost their reserve private key to eventually recover their
funds. If a wire transfer to the exchange does not include a valid reserve public key,
the exchange transfers the money back to the sender.
-Figure~\ref{fig:reserve:state} illustrates the state machine for a reserve.
+Figure~\ref{fig:reserve:states} illustrates the state machine for a reserve.
Long-terms states are shown in boxes, while actions are in circles. The final
state is in a double-circle. A reserve is first {\em filled} by a wire
transfer. The amount in it is reduced by withdraw operations. If the balance
diff --git a/doc/system/taler/implementation.tex b/doc/system/taler/implementation.tex
index f386228ff..41202d06e 100644
--- a/doc/system/taler/implementation.tex
+++ b/doc/system/taler/implementation.tex
@@ -1849,8 +1849,7 @@ This includes both how many coins are used per transaction on average, as well
as how often refresh operations are run.
We ran a simple simulation to determine rather conservative upper bounds for
-the parameters that characterize the average transaction. The source code for
-the simulation can be found in Appendix \ref{appendix:coinsim}.
+the parameters that characterize the average transaction.
In the simulation, thirteen denominations of values $2^0,\dots,2^{12}$ are
available. Customers repeatedly select a random value to be spent between $4$ and $5000$.