I'm still not quite sure when this is useful. I haven't been able to find an example for $x$ and $y$ where $x + y \neq \text{Fast2Sum}(x, y)$.
+\section{Handbook of Floating-Point Arithmetic \cite{HFP}}
+This book is amazingly useful and pretty much says everything there is to know about Floating Point numbers.
+It is much easier to read than Goldberg or Priest's papers.
+
+I'm going to start working through it and compile their test programs.
\chapter{General Notes}
TODO: Probably say something more insightful. Other than "here is a graph that shows errors and we blame rounding".
-Results of \verb/calculatepi/
+\subsection{Results of calculatepi}
+
+We can calculate pi by numerically solving the integral:
+\begin{align*}
+ \int_0^1 \left(\frac{4}{1+x^2}\right) dx &= \pi
+\end{align*}
+
+Results with Simpson Method:
\begin{figure}[H]
\centering
\includegraphics[width=0.8\textwidth]{figures/calculatepi.pdf}
Tests with \verb/calculatepi/ show it's not quite as simple as just blindly replacing all your additions with Fast2Sum from Dekker\cite{dekker1971afloating}.
ie: The graph looks exactly the same for single precision. \verb/calculatepi/ obviously also has multiplication ops in it which I didn't change. Will look at after sleep maybe.
+\subsection{A sequence that seems to converge to a wrong limit - pgs 9-10, \cite{HFP}}
+
+\begin{align*}
+ u_n &= \left\{ \begin{array}{c} u_0 = 2 \\ u_1 = -4 \\ u_n = 111 - \frac{1130}{u_{n-1}} + \frac{3000}{u_{n-1}u_{n-2}}\end{array}\right.
+\end{align*}
+
+The limit of the series should be $6$ but when calculated with IEEE floats it is actually $100$
+The authors show that the limit is actually $100$ for different starting values, and the error in floating point arithmetic causes the series to go to that limit instead.
+
+\begin{figure}[H]
+ \centering
+ \includegraphics[width=0.8\textwidth]{figures/handbook1-1.pdf}
+ \caption{Output of Program 1.1 from \emph{Handbook of Floating-Point Arithmetic}\cite{HFP} for various IEEE types}
+\end{figure}
\pagebreak
\bibliographystyle{unsrt}
doi={10.1109/IEEESTD.2008.4610935},}
-@article{dekker1971afloating
+@article{dekker1971afloating,
year={1971},
issn={0029-599X},
journal={Numerische Mathematik},
pages={224-242},
language={English}
}
+
+@String{pub-BIRKHAUSER-BOSTON = "Birkh{\"a}user Boston Inc."}
+@String{pub-BIRKHAUSER-BOSTON:adr = "Cambridge, MA, USA"}
+
+@Book{HFP,
+ author = "Jean-Michel Muller and Nicolas Brisebarre and Florent
+ de Dinechin and Claude-Pierre Jeannerod and Vincent
+ Lef{\`e}vre and Guillaume Melquiond and Nathalie Revol
+ and Damien Stehl{\'e} and Serge Torres",
+ title = "Handbook of Floating-Point Arithmetic",
+ publisher = pub-BIRKHAUSER-BOSTON,
+ address = pub-BIRKHAUSER-BOSTON:adr,
+ pages = "xxiii + 572",
+ year = "2010",
+ DOI = "http://dx.doi.org/10.1007/978-0-8176-4704-9",
+ ISBN = "0-8176-4704-X",
+ ISBN-13 = "978-0-8176-4704-9",
+ LCCN = "QA76.9.C62 H36 2010",
+ bibdate = "Thu Jan 27 16:18:58 2011",
+ price = "US\$90 (est.)",
+ acknowledgement = ack-nhfb,
+}
+
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