-The remainder of this report will be organised as follows: Chapters \ref{BackgroundHardware} and \ref{BackgroundSoftware} will discuss approaches to representation of numbers in both Hardware and Software respectively; Chapter \ref{Approach} will outline the approach [reword] considering <insert fuzzy list of faculty dependent requirements here (Safety, Ethics, Group Work Process, etc)>. Chapter/Appendices \ref{Implementation} will provide implementation notes. Chapter \ref{Results} will describe our results. Chapter \ref{Conclusion} will be the conclusion.
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-NOTE: Given that I don't actually need a full thesis, change from Chapters to Sections?
-NOTE2: Will treat as a full thesis but if it gets too big, submit a condensed version as the MCTX "report".
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-NOTE3: In final version, put the Approach at the end and/or in appendices before the Implementation notes rather than the start (?)
+We have implemented a proof of concept document viewer compatable with a subset of the SVG standard, which has allowed us to explore the limitations of floating point arithmetic and possible approaches to achieving arbitrary precision document formats. Using the Rational representation of the GNU Multiple Precision (GMP) library\cite{granlund2014GMP} we are able to implement correct rendering of SVG test images seperated by arbitrary distances. We demonstrate the trade off between performance cost and the accuracy of rendering