Replace a starttyping with starthaskell.

[matthijs/master-project/report.git] / Chapters / Introduction.tex

diff --git a/Chapters/Introduction.tex b/Chapters/Introduction.tex
index 334b1c89d734486f1f960bb92717f767b43c5a8c..e41de519e408d7338c74e7c4e0656dc3941be077 100644 (file)
--- a/Chapters/Introduction.tex
+++ b/Chapters/Introduction.tex
@@ -7,10 +7,10 @@ connect these worlds and puts a step towards making hardware programming
 on the whole easier, more maintainable and generally more pleasant.
 
 This assignment has been performed in close cooperation with Christiaan
 on the whole easier, more maintainable and generally more pleasant.
 
 This assignment has been performed in close cooperation with Christiaan

-Baaij, whose Master's thesis \cite[baaij09] has been completed at the
+Baaij, whose Master's thesis \cite[baaij09]\ has been completed at the

 same time as this thesis. Where this thesis focuses on the
 interpretation of the Haskell language and the compilation process,
 same time as this thesis. Where this thesis focuses on the
 interpretation of the Haskell language and the compilation process,

-\cite[baaij09] has a more thorough study of the field, explores more
+\cite[baaij09]\ has a more thorough study of the field, explores more

 advanced types and provides a case study.
 
 % Use \subject to hide this section from the toc
 advanced types and provides a case study.
 
 % Use \subject to hide this section from the toc


@@ -65,14 +65,14 @@ advanced types and provides a case study.
     % Draw a dotted line between the middle operations
     ncline(a2)(a3) "linestyle(dashed withdots)", "arrows(-)";
   \stopuseMPgraphic
     % Draw a dotted line between the middle operations
     ncline(a2)(a3) "linestyle(dashed withdots)", "arrows(-)";
   \stopuseMPgraphic

-  \placeexample[here][ex:AndWord]{Simple architecture that inverts a vector of bits.}
+  \placeexample[][ex:AndWord]{Simple architecture that inverts a vector of bits.}

     \startcombination[2*1]
       {\typebufferlam{AndWord}}{Haskell description of the architecture.}
       {\boxedgraphic{AndWord}}{The architecture described by the Haskell description.}
     \stopcombination
 
   Slightly more complicated is the incremental summation of
     \startcombination[2*1]
       {\typebufferlam{AndWord}}{Haskell description of the architecture.}
       {\boxedgraphic{AndWord}}{The architecture described by the Haskell description.}
     \stopcombination
 
   Slightly more complicated is the incremental summation of

-  values show in \in{example}[ex:RecursiveSum]\note[notfinalsyntax].
+  values shown in \in{example}[ex:RecursiveSum]\note[notfinalsyntax].

 
   In this example we see a recursive function \hs{sum'} that recurses over a
   list and takes an accumulator argument that stores the sum so far. On each
 
   In this example we see a recursive function \hs{sum'} that recurses over a
   list and takes an accumulator argument that stores the sum so far. On each


@@ -220,7 +220,7 @@ advanced types and provides a case study.
   In addition to looking at designing a hardware description language, we
   will also implement a prototype to test ideas. This prototype will
   translate hardware descriptions written in the Haskell functional language
   In addition to looking at designing a hardware description language, we
   will also implement a prototype to test ideas. This prototype will
   translate hardware descriptions written in the Haskell functional language

-  to simple (netlist-like) hardware descriptions in the \VHDL language. The
+  to simple (netlist-like) hardware descriptions in the \VHDL\ language. The

   reasons for choosing these languages are detailed in section
   \in{}[sec:prototype:input] and \in{}[sec:prototype:output] respectively.
 
   reasons for choosing these languages are detailed in section
   \in{}[sec:prototype:input] and \in{}[sec:prototype:output] respectively.
 


@@ -252,7 +252,7 @@ programming. Since we are not the first to have merged these approaches,
 a number of other functional hardware description languages are briefly
 described.
 
 a number of other functional hardware description languages are briefly
 described.
 

-Chapter two describes the exploratory part of this research: How can we
+Chapter two describes the exploratory part of this research: how can we

 describe hardware using a functional language and how can we use functional
 concepts for hardware descriptions?
 
 describe hardware using a functional language and how can we use functional
 concepts for hardware descriptions?