changeset 0:fd9154e03f46

thesis
author e065725@kinjyo.cr.ie.u-ryukyu.ac.jp
date Sat, 13 Feb 2010 21:38:25 +0900
parents
children 641b358caa99
files paper/Makefile paper/abstract.tex paper/appendix.tex paper/cell.tex paper/cerium.tex paper/compare.tex paper/conclusion.tex paper/createspan1.graffle paper/dummy.tex paper/images/Ceriumroutine1.bb paper/images/Ceriumroutine1.graffle paper/images/Ceriumroutine1.pdf paper/images/CreatePolygon.bb paper/images/CreatePolygon.graffle paper/images/CreatePolygon.pdf paper/images/amdahl.bb paper/images/amdahl.pdf paper/images/cell_arch.bb paper/images/cell_arch.graffle paper/images/cell_arch.pdf paper/images/cell_mailbox.bb paper/images/cell_mailbox.graffle paper/images/cell_mailbox.pdf paper/images/cell_ppe.bb paper/images/cell_ppe.graffle paper/images/cell_ppe.pdf paper/images/cell_simd.bb paper/images/cell_simd.graffle paper/images/cell_simd.pdf paper/images/cell_spe.bb paper/images/cell_spe.graffle paper/images/cell_spe.pdf paper/images/cell_spurs_pipeline.bb paper/images/cell_spurs_pipeline.graffle paper/images/cell_spurs_pipeline.pdf paper/images/cell_spurs_task.bb paper/images/cell_spurs_task.graffle paper/images/cell_spurs_task.pdf paper/images/cerium_game_1.bb paper/images/cerium_game_1.pdf paper/images/cerium_game_sg.bb paper/images/cerium_game_sg.graffle paper/images/cerium_game_sg.pdf paper/images/cerium_rendering_draw_span.bb paper/images/cerium_rendering_draw_span.graffle paper/images/cerium_rendering_draw_span.pdf paper/images/cerium_rendering_half.bb paper/images/cerium_rendering_half.graffle paper/images/cerium_rendering_half.pdf paper/images/cerium_rendering_spack.bb paper/images/cerium_rendering_spack.graffle paper/images/cerium_rendering_spack.pdf paper/images/cerium_rendering_span.bb paper/images/cerium_rendering_span.graffle paper/images/cerium_rendering_span.pdf paper/images/cerium_rendering_span_tex.bb paper/images/cerium_rendering_span_tex.graffle paper/images/cerium_rendering_span_tex.pdf paper/images/cerium_rendering_tex_tapestry.bb paper/images/cerium_rendering_tex_tapestry.graffle paper/images/cerium_rendering_tex_tapestry.pdf paper/images/cerium_rendering_tile.bb paper/images/cerium_rendering_tile.graffle paper/images/cerium_rendering_tile.pdf paper/images/cerium_scale_test1.bb paper/images/cerium_scale_test1.pdf paper/images/cerium_scale_test2.bb paper/images/cerium_scale_test2.pdf paper/images/cerium_sg_create.bb paper/images/cerium_sg_create.graffle paper/images/cerium_sg_create.pdf paper/images/cerium_sg_createlist.bb paper/images/cerium_sg_createlist.graffle paper/images/cerium_sg_createlist.pdf paper/images/cerium_sg_example.bb paper/images/cerium_sg_example.pdf paper/images/cerium_sg_tree.bb paper/images/cerium_sg_tree.graffle paper/images/cerium_sg_tree.pdf paper/images/cerium_task.bb paper/images/cerium_task.graffle paper/images/cerium_task.pdf paper/images/com_gallium.bb paper/images/com_gallium.pdf paper/images/cp_opencl_plat.bb paper/images/cp_opencl_plat.graffle paper/images/cp_opencl_plat.pdf paper/images/createspan1.bb paper/images/createspan1.pdf paper/images/emblem-bitmap.eps paper/images/manycore_data_split.bb paper/images/manycore_data_split.graffle paper/images/manycore_data_split.pdf paper/images/manycore_step.bb paper/images/manycore_step.graffle paper/images/manycore_step.pdf paper/images/rendering3.bb paper/images/rendering3.graffle paper/images/rendering3.pdf paper/images/tm_scheduler.bb paper/images/tm_scheduler.graffle paper/images/tm_scheduler.pdf paper/images/tm_sm_global.bb paper/images/tm_sm_global.graffle paper/images/tm_sm_global.pdf paper/images/tm_sm_pipeline_wait.bb paper/images/tm_sm_pipeline_wait.graffle paper/images/tm_sm_pipeline_wait.pdf paper/images/tm_sm_pipeline_wait2.bb paper/images/tm_sm_pipeline_wait2.graffle paper/images/tm_sm_pipeline_wait2.pdf paper/images/tm_sm_rbuf.bb paper/images/tm_sm_rbuf.graffle paper/images/tm_sm_rbuf.pdf paper/images/tm_sm_state.bb paper/images/tm_sm_state.graffle paper/images/tm_sm_state.pdf paper/images/tm_sm_wbuf.bb paper/images/tm_sm_wbuf.graffle paper/images/tm_sm_wbuf.pdf paper/images/tm_sort.bb paper/images/tm_sort.graffle paper/images/tm_sort.pdf paper/images/tm_sort_calc.bb paper/images/tm_sort_calc.pdf paper/images/tm_sort_calc.txt paper/images/tm_sort_calc1m.bb paper/images/tm_sort_calc1m.pdf paper/images/tm_sort_calc1m.plt paper/images/tm_sort_calc1m.txt paper/images/tm_sync.bb paper/images/tm_sync.graffle paper/images/tm_sync.pdf paper/images/tm_task_depend.bb paper/images/tm_task_depend.graffle paper/images/tm_task_depend.pdf paper/images/tm_task_post.bb paper/images/tm_task_post.graffle paper/images/tm_task_post.pdf paper/images/tm_task_struct.bb paper/images/tm_task_struct.graffle paper/images/tm_task_struct.pdf paper/images/u-ryukyu-Mark.eps paper/introduciton.tex paper/manycore.tex paper/rendering.tex paper/taskmanager.tex paper/thesis_paper.bib paper/thesis_paper.sty paper/thesis_paper.tex
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/Makefile	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,78 @@
+TARGET = thesis_paper
+
+SRC = $(wildcard *.tex)
+
+LATEX   = platex
+BIBTEX  = jbibtex
+DVIPS   = dvips
+DVIPDFM = dvipdfmx
+RM      = rm -f
+EBB     = ebb
+
+#  Option definitions
+DVIPDFMOPT = 
+DVIPSOPT   = -D 720 -mode esphi -O 0mm,0mm -N0 
+
+#  Suffixes definitions
+.SUFFIXES: .tex .dvi
+
+#  Recipes
+all: pdf# $(TARGET).ps
+	open $(TARGET).pdf
+
+dvi:
+	@echo "----------- make dvi file ($(TARGET).dvi) ----------"
+	$(LATEX) $(TARGET)
+	$(BIBTEX) $(TARGET)
+	$(LATEX) $(TARGET)
+	$(LATEX) $(TARGET)
+pdf: dvi
+	$(DVIPDFM) $(DVIPDFMOPT) $(TARGET)
+
+clean:
+	$(RM) *~ \#*
+	@if [ -f $(TARGET).aux ];\
+		then $(RM) $(TARGET).aux;\
+	fi
+	@if [ -f $(TARGET).log ];\
+		then $(RM) $(TARGET).log;\
+	fi
+	@if [ -f $(TARGET).toc ];\
+		then $(RM) $(TARGET).toc;\
+	fi
+	@if [ -f $(TARGET).lof ];\
+		then $(RM) $(TARGET).lof;\
+	fi
+	@if [ -f $(TARGET).lot ];\
+		then $(RM) $(TARGET).lot;\
+	fi
+	@if [ -f $(TARGET).big ];\
+		then $(RM) $(TARGET).big;\
+	fi
+	@if [ -f $(TARGET).bbl ];\
+		then $(RM) $(TARGET).bbl;\
+	fi
+	@if [ -f $(TARGET).ilg ];\
+		then $(RM) $(TARGET).ilg;\
+	fi
+	@if [ -f $(TARGET).idx ];\
+		then $(RM) $(TARGET).idx;\
+	fi
+	@if [ -f $(TARGET).ind ];\
+		then $(RM) $(TARGET).ind;\
+	fi
+	@if [ -f $(TARGET).dvi ];\
+		then $(RM) $(TARGET).dvi;\
+	fi
+	@if [ -f $(TARGET).pdf ];\
+		then $(RM) $(TARGET).pdf;\
+	fi
+	@if [ -f $(TARGET).out ];\
+		then $(RM) $(TARGET).out;\
+	fi
+	@if [ -f $(TARGET).bbl ];\
+		then $(RM) $(TARGET).bbl;\
+	fi
+	@if [ -f $(TARGET).blg ];\
+		then $(RM) $(TARGET).blg;\
+	fi
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/abstract.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,40 @@
+\begin{abstract}
+
+我々は、家庭用ゲーム機で実行するオープンな開発フレームワークに関する
+研究を行ってきた。家庭用ゲーム機の多くは特殊なアーキテクチャであり、
+その性能を生かすためにはアーキテクチャに直結したプログラミングが求められる。
+しかし、そのようなプログラミングスタイルは、学生実験においては困難なもので、
+経験的にアーキテクチャの理解に実験の時間の約 2/3 を費やしてしまう。
+また、近年では CPU の性能を複数の CPU コア (Many Core Architecture) を
+導入することによって向上させるようになってきており、2006 年に発売された
+家庭用ゲーム機 PlayStation 3 でも、
+1つの制御系プロセッサ Power Processor Element (PPE) と、
+8つのデータ処理演算プロセッサ Synergistic Processor Element (SPE) から
+構成される Cell アーキテクチャを持つ。
+このような要素も、並列プログラミング経験の浅い学生にとって
+開発を困難なものとしている要因となっている。
+
+そこで我々は、Many Core Architecture を用いた並列プログラムの開発をサポートする
+フレームワークとして Fine Grain Task Manager を設計し、それを用いて
+PlayStation 3 上でゲームプログラミングが行える Cerium を提案する。
+
+現在、PlayStation 3 の GPU にアクセスする API は公開されていない。
+代わりに、フレームバッファデバイスである ps3fb を使用することはできる。
+この点に着目し、先行研究 \cite{akira} では、始めに OSMesa \cite{osmesa} という
+フレームバッファエンジン用のレンダリングエンジンを用いて開発を行っている。
+従来の OSMesa では PPE のみを使用する Single Core Program であるため、
+立方体を回転させるというシンプルなテストプログラムでも、約 18 FPS しか
+得ることが出来なかった。そこで先行研究では、OSMesa の一部の機能を
+複数の SPE に演算させ、高速化を図っている。結果として 約 43 FPS という結果が
+得られたものの、OSMesa の元々の実装と合わせてソースコードの複雑化を招き、
+以降のメンテナンスや機能の追加、改良が困難なものとなった。
+
+我々が提案した Cerium は、独自に Rendering Engine を持つ
+ゲーム開発用フレームワークである。
+Cerium は Rendering Engine の他に、
+ゲームの中の一つの場面(シーン)を構成するオブジェクトやその振る舞い、
+ゲームのルールから成る SceneGraph と、
+それらの動きやレンダリングの処理を動的に SPE に割り振るカーネルである
+Fine Grain Task Manager で構成されている。
+
+\end{abstract}
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/appendix.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,16 @@
+\chapter*{発表履歴}
+\addcontentsline{toc}{chapter}{発表文献}
+
+\begin{itemize}
+\item 河野真治, 渕田良彦, 宮國渡. 継続を基本とする言語 CbC による分散プログラミング, 日本ソフトウェア科学会第23回大会(2B-1), September 2006.
+
+\item 宮國渡, 河野真治. Continuation based C 言語による OS システムコールの意味記述. 情報処理学会第105回システムソフトウェアとオペレーティング・システム研究会 (16). April 2007.
+
+\item 宮國渡, 河野真治, 神里晃. Cell 用の Fine-Grain Task Manager の実装. 情報処理学会第108回システムソフトウェアとオペレーティング・システム研究会 (13). April 2008.
+
+\item オープンソースカンファレンス2006 Okinawa. December 2006.
+\item オープンソースカンファレンス2007 Okinawa. November 2007.
+\item 第31回 沖縄の産業まつり. October 2007.
+\item オープンソースカンファレンス2008 Okinawa. November 2008.
+\item ITまつり. January 2009.
+\end{itemize}
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/cell.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,250 @@
+\chapter{CELL BROADBAND ENGINE} \label{chapter:cell}
+
+\section{Cell Broadband Engineの構造}
+
+ここでは研究、実験題材の対象となった Cell アーキテクチャについて説明する。
+Cell Broadband Engine \cite{cell} は、SCEI と IBM によって開発された
+CPU である。
+2 thread の PPE (PowerPC Processor Element) と、8個の SPE
+(Synergistic Processor Element) からなる 非対称なマルチコアプロセッサであり、
+高速リングバス である EIB (Element Interface Bus) で構成されている。
+本研究で用いた PS3Linux (Fedora 10, Yellow Dog Linux 6.0) では、
+6個の SPE を使う事ができる (\figref{cell_arch}) 。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.8]{./images/cell_arch.pdf}
+  \end{center}
+  \caption{Cell Broadband Engine Architecture}
+  \label{fig:cell_arch}
+\end{figure}
+
+
+
+\section{PPE (PowerPC Processor Element)}
+
+PPE は Cell Broadband Engine のメインプロセッサで、複数の SPE を
+コアプロセッサとして使用することができる汎用プロセッサである。
+メインメモリや外部デバイスへの入出力、SPEを制御する役割を担っている。
+PPU (PowerPC Processor Unit) は、
+PPE の演算処理を行うユニットで、PowerPC アーキテクチャをベースとした
+命令セットを持つ。PPSS (PowerPC Processor Storage Subsystem) は
+PPU からメインメモリへのデータアクセスを制御する
+ユニットである (\figref{cell_ppe}) 。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.8]{./images/cell_ppe.pdf}
+  \end{center}
+  \caption{PPE (PowerPC Processor Element)}
+  \label{fig:cell_ppe}
+\end{figure}
+
+\section{SPE (Synergistic Processor Element)} \label{sec:cell_spe}
+
+SPE には 256KB の Local Store (LS) と呼ばれる、SPE から唯一、
+直接参照できるメモリ領域があり、バスに負担をかける事無く
+並列に計算を進めることが出来る。SPE からメインメモリへは、
+直接アクセスすることは出来ず、SPE を構成する一つである
+MFC (Memory Flow Controller) へ、チャネルを介して DMA (Direct Memory Access)
+命令を送ることで行われる (\figref{cell_spe}) 。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.8]{./images/cell_spe.pdf}
+  \end{center}
+  \caption{SPE (Synergistic Processor Element)}
+  \label{fig:cell_spe}
+\end{figure}
+
+
+\section{Cell の基本機能}
+
+\subsection{DMA}
+\ref{sec:cell_spe}節 で述べた通り、SPE は LS 以外のメモリに
+直接アクセスすることができず、PPE が利用するメインメモリ上のデータに
+アクセスするには DMA を用いる。
+DMA (Direct Memory Access) 転送とは、CPU を介さずに周辺装置と
+メモリとの間でデータ転送ことで、Cell の場合は
+メインメモリと LS 間でデータの転送を行う。手順としては以下の様になる。
+
+\begin{enumerate}
+  \item SPE プログラムが MFC (Memory Flow Controller) に対して
+    DMA 転送命令を発行
+  \item MFC が DMA Controller を介して DMA 転送を開始。
+    この間、SPE プログラムは停止しない。
+  \item DMA 転送の終了を待つ場合、SPE プログラム内で転送の完了を待つ
+\end{enumerate}
+
+この時、DMA 転送するデータとアドレスにはいくつか制限がある。
+転送データが 16 バイト以上の場合、データサイズは 16 バイトの倍数で、
+転送元と転送先のアドレスが 16 バイト境界に揃えられている必要がある。
+転送データが 16 バイト未満の場合、データサイズは 1,2,4,8 バイトで、
+転送サイズに応じた自然なアライメントである (転送サイズのバイト境界に
+揃えられている) ことが条件となる。
+
+\subsection{SIMD (Single Instruction Multiple Data)}
+Cell では、SPE に実装されている 128 ビットレジスタを用いて
+SIMD を行うことが出来る。SIMD とは、1 つの命令で
+複数のデータに対して処理を行う演算方式である (\figref{cell_simd}) 。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.8]{./images/cell_simd.pdf}
+  \end{center}
+  \caption{SIMD (Single Instruction Multiple Data)}
+  \label{fig:cell_simd}
+\end{figure}
+
+\figref{cell_simd} のスカラ演算は以下のような式に当てはまる。
+
+\begin{verbatim}
+int a[4] = {1, 2, 3, 4};
+int b[4] = {5, 6, 7, 8};
+int c[4];
+
+for (int i = 0; i < 4; i++) {
+    a[i] + b[i] = c[i];
+}
+\end{verbatim}
+
+これに対し、SIMD 演算は以下のようになる。
+
+\begin{verbatim}
+vector signed int va = {1, 2, 3, 4};
+vector signed int vb = {5, 6, 7, 8};
+vector signed int vc;
+
+vc = spu_add(va, vb);
+\end{verbatim}
+
+Cell の SIMD 演算では、vector 型の変数を用いる。
+
+このように、通常は 4 回計算するところを 1 回の計算で行うことが
+できる反面、すべての演算を 128 ビットで計算するため、なるべく
+効果的に行う様に工夫する必要がある。
+
+\begin{verbatim}
+int a, b, c;
+
+c = a + b;
+\end{verbatim}
+
+この様な計算の場合でも 128 ビット同士の演算を行うため、無駄が生じる。
+
+\subsection{Mailbox} \label{sec:cell_mailbox}
+
+Mailbox とは SPE の MFC 内の FIFO キューであり、PPE と SPE 間の 32 ビット
+メッセージの交換に用いられる。Mailbox では 3 つの振る舞いが
+出来る様に設計されている (\figref{cell_mailbox}) 。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.8]{./images/cell_mailbox.pdf}
+  \end{center}
+  \caption{Mailbox}
+  \label{fig:cell_mailbox}
+\end{figure}
+
+\begin{enumerate}
+\item SPU Inbound Mailbox \\
+  PPE から SPE へデータを渡すためのキュー。キューのエントリ数は
+  実装依存による \cite{cell} が、研究環境では最大4個までのデータを蓄積できる。
+  このキューが空の場合は、SPE は、データがメールボックスに書き込まれるまでは、 
+  命令でストールする。読み出すデータの順番は書き込んだ順番に保証されている。
+\item SPU Outbound Mailbox \\
+  SPE から PPE へのデータを渡すためのキュー。研究環境では最大1個までしか
+  データが蓄積できない。
+\item SPU Outbound interrupt Mailbox \\
+  SPU Outbound Mailbox とほとんど同じだが、このキューでは SPE から
+  キューにデータが書き込まれると、PPE に対して割り込みイベントが
+  発生し、データの読み出しタイミングを通知する事が出来る。
+\end{enumerate}
+
+\section{開発環境}
+
+\subsection{libSPE2}
+
+libSPE2 とは、PPE が SPE を扱うためのライブラリ群である \cite{libspe2} 。
+libSPE2 は SPE Context Creation、SPE Program Image Handling、
+SPE Run Control、SPE Event Handling、SPE MFC Problem State Facilities、
+Direct SPE Access for Applications という基本構成でできている。
+Cell の基本プログラムは次の様になる。
+
+\begin{enumerate}
+\item create N SPE context
+\item Load the appropriate SPE executable object into each SPE context's local store
+\item Create N threads
+\item Wait for all N threads to terminate
+\end{enumerate}
+
+\subsection{SPU C/C++ 言語拡張}
+SPE では基本的な C 言語の機能の他に、Cell 特有の拡張が行われている
+\cite{cell_cpp} 。
+\tabref{cell_cpp} に主な API を記す。
+
+\begin{table}[htb]
+  \begin{center}
+    \caption{SPU C/C++ 言語拡張 API}
+    \label{tab:cell_cpp}
+    \begin{tabular}{|l|l|}
+      \hline
+      spu\_mfcdma32 & DMA 転送を開始する \\
+      \hline
+      spu\_read\_in\_mbox & PPE からの mail を取得する \\
+      \hline
+      spu\_write\_out\_mbox & PPE へ mail を送信する \\
+      \hline
+      spu\_add、spu\_sub、spu\_mul & SIMD 演算 (加算、減算、乗算) \\
+      \hline
+    \end{tabular}
+  \end{center}
+\end{table}
+
+SPE を効率よく使う上で \tabref{cell_cpp} の様な Cell 特有の API や、
+SPE アセンブラ命令を学ぶことが必要となる。
+
+\subsection{SPURS}
+
+ここでは、現在発表されている Cell の開発環境である SPURS について説明する。
+
+SPURS \cite{spurs} は、閉じた並列分散と考えることができる Cell の環境で、
+いかに効率よく動作させるかということを考えたシステムである。
+
+Cell の性能を存分に生かすためには SPE を効率よく使い切ることであり、
+SPE の動作を止めることなく、同期を最小限に行う必要がある。 
+そこで SPURS では SPE を効率よく利用するために、PPE に依存せずに SPE コードを 
+選択し、実行することと機能は効率重視で割り切ることを挙げている。
+そのため、SPE 上にカーネルを組み込んでいる。
+
+アプリケーションを複数 SPE で実行するとき、アプリケーションプログラムを
+出来るだけ小さな単位(タスク)に分割し、通信ライブラリを用いて
+タスク間を依存関係で結合する。
+LS 常駐のカーネルが、実行可能なタスクを選んで実行していく
+(\figref{cell_spurs_task}) 。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.6]{./images/cell_spurs_task}
+  \end{center}
+  \caption{SPURS Task}
+  \label{fig:cell_spurs_task}
+\end{figure}
+
+%また、アプリケーションを分割するとき、プログラムがデータを伴うとき、
+%ジョブに分割し、並べ替えた上で、カーネルがジョブリストから
+%ジョブを取得して実行する。
+
+これらの処理はデータを扱うため、SPURS はパイプラインで実行される
+(\figref{cell_spurs_pipeline}) 。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.6]{./images/cell_spurs_pipeline}
+  \end{center}
+  \caption{SPURS Pipeline}
+  \label{fig:cell_spurs_pipeline}
+\end{figure}
+
+以上から、SPURS は複数の SPE を効率よく使うためのライブラリとして
+優れた物であると思われるが、現在一般には公開されていない。
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/cerium.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,125 @@
+\chapter{Cerium} \label{chapter:cerium}
+
+Cerium \cite{cerium} は、我々が提案したゲーム開発フレームワークで、
+独自に レンダリングエンジン (\ref{sec:cerium_rendering}節) を持つ。
+ゲーム中のオブジェクトの振る舞いや
+ルールは シーングラフ で管理し、
+それらの動きやレンダリングの処理を動的に SPE に割り振るカーネルとして
+タスクマネージャ が用いられる。
+
+Cerium は C++ で実装されており、画像の読み込みや入力デバイスは
+SDL を用いて行っている。
+
+\section{タスクマネージャ} \label{sec:taskmanager}
+
+タスクマネージャは、タスクと呼ばれる、分割された各プログラムを管理する。
+タスクの単位はサブルーチンまたは関数とし、タスク同士の依存関係を考慮しながら
+実行していく。
+
+\section{シーングラフ} \label{sec:cerium_scene_graph}
+
+ゲーム中の一つの場面(Scene)を構成するオブジェクトや
+その振る舞い、ゲームのルールの集合を シーングラフ としている。
+シーングラフ のノードは親子関係を持つツリーで構成される
+(\figref{cerium_sg_tree})。
+親子関係とは、親オブジェクトの回転や平行移動等の行列計算による
+頂点座標の変更が、子オブジェクトにも反映する関係のことである。
+これは子に対してスタックに積まれた親の変換行列を掛けることで実現できる。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.8]{images/cerium_sg_tree.pdf}
+    \caption{SceneGraph}
+    \label{fig:cerium_sg_tree}
+  \end{center}
+\end{figure}
+
+\subsection{Scene ポリゴンの生成}
+ゲーム中に登場するオブジェクトは、オープンソースの3Dモデリングツールである 
+Blender[16] を用いる。Blenderで記述したポリゴンオブジェクトを、スクリプトを用いて座標やテクスチャ 
+イメージを埋め込んだ xml ファイルとして出力する。
+
+\section{レンダリングエンジン} \label{sec:cerium_rendering}
+
+レンダリングエンジンは、主に3つのタスクで構成されている。シーングラフから、実際に表示するポリゴンの抽出するCreatePolygonFromSceneGraph.
+ポリゴンから Span の生成するCreateSpan.
+Span に RGB をマッピングし描画するDrawSpan.
+抜き出したものである。Ceriumではシーングラフからレンダリングに至るまでに以下で示すような流れがある。\\\\\\
+
+ \\
+    1.SceneGraphから、SPEのLSに収まるサイズのSceneGraphPackを生成する。\\
+    2.SceneGraphが持つ情報から、Polygonの座標を計算し、PolygonPackを生成する。\\
+    3.PolygonPackから、同じY座標を持つ線分の集合SpanPackを生成する。\\
+    4.Spanに対応する、描画に必要なTextureをSpanPackに付与する。\\
+    5.SpanPackとTextureをZ Bufferを用いて描画する\\
+
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.8]{images/rendering3.pdf}
+    \caption{シーングラフからレンダリングまでの流れ}
+    \label{fig:rendering}
+  \end{center}
+\end{figure}
+
+\subsection{CreatePolygonFromSceneGraph} \label{sec:cerium_rendering_ceatepolygon}
+CreatePolygonFromSceneGraph タスクはシーングラフをもとに、モデリングデータからポリゴンを生成するタスクである。
+シーングラフによって生成されたオブジェクトは、それぞれ自身のモデリングデータに対してのIDと変換行列をもっている。
+オブジェクトのモデリングデータの頂点をIDを用いて参照し、変換行列を適応させ描画対象となるポリゴンを生成している。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.8]{images/CreatePolygon.pdf}
+    \caption{シーングラフをもとにモデリングデータからSpanの生成}
+    \label{fig:createpolygon}
+  \end{center}
+\end{figure}
+
+\subsection{CreateSpan} \label{sec:cerium_rendering_create_span}
+CreateSpan タスクはシーングラフをもとに取得したポリゴンからSpanを生成するタスクである。Span とはポリゴンを横一直線に切り取った、y座標毎のデータである。1つのポリゴンは三角形であり、まずその三角形を二等分する。そののちそれぞれの三角形をSpanに分割する。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.5]{images/createspan1.pdf}
+    \caption{ポリゴンからSpanの生成}
+    \label{fig:createspan1}
+  \end{center}
+\end{figure}
+
+\subsection{DrawSpan} \label{sec:cerium_rendering_draw_span}
+
+現在、PlayStation 3 の GPU にアクセスする API は公開されていないため、
+Cerium ではフレームバッファに描画する。
+フレームバッファのアドレスは mmap() で取得できるため、
+タスクの出力としてフレームバッファを指定するか、
+タスク内で DMA 転送を行えば (\ref{sec:tm_dma}節)、直接描画することができる。
+
+通常の Linux で動作する場合も同様にフレームバッファに描画する。
+MacOSX の場合は SDL 経由で描画する。
+
+レンダリングは DrawSpan というタスクで行う。
+受け取った SpanPack から Span を取り出す。
+Span の端から 1 pixel ずつ見ていき、その pixel の z 座標と Z Buffer を見比べ、
+描画するものとをわかれば、対応する RGB 値を書き込む。
+
+また、DrawSpan は分割された画面領域の一部を担当するので、
+span がその領域を超えている場合は描画しない。
+現在、一つの DrawSpan が描画する領域は 256x8 としている
+(\figref{cerium_rendering_draw_span})。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.7]{images/cerium_rendering_draw_span.pdf}
+    \caption{DrawSpan の担当領域}
+    \label{fig:cerium_rendering_draw_span}
+  \end{center}
+\end{figure}
+
+{\small
+\begin{verbatim}
+
+\end{verbatim}
+}
+
+タスク終了後、linebuf をフレームバッファに DMA 転送することで、描画が完了する。
+
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/compare.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,200 @@
+\chapter{比較} \label{chapter:compare}
+
+ここでは Khronos OpenCL Working Group が開発している、
+並列プログラミングのフレームワークである OpenCL 及び、
+Cell で動作する OpenGL のドライバである Gallium3D について説明し、
+TaskManager 、Cerium との比較を行う。
+
+\section{OpenCL}
+
+OpenCL (Open Computing Language) \cite{opencl} とは、
+マルチコアCPU や GPU、その他のプロセッサによる、
+ヘテロジニアスコンピューティングのフレームワークである。
+OpenCL C プログラミング言語は ISO/IEC 9899:1999 (C99) 規格を
+ベースとしている。
+
+OpenCL のプラットフォームモデルは \figref{cp_opencl_plat} のようになり、
+一つの Host と複数の OpenCL Device で構成されている。
+OpenCL devices の中では Compute Units (CUs) として分割され、その中でさらに
+Processing Elements (PEs) として分割される。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.7]{images/cp_opencl_plat.pdf}
+    \caption{OpenCL Platform}
+    \label{fig:cp_opencl_plat}
+  \end{center}
+\end{figure}
+
+OpenCL アプリケーションでは、実行する処理 command が Host から 
+PEs へ送られる。PEs では SIMD (Single Instruction Multiple Data)
+もしくは SPMD (Single Program Multiple Data) で実行される。
+
+OpenCL devices や Host には kernel があり、Host kernel では
+OpenCL devices context や実行 command の管理、OpenCL device kernel では
+Host から送られて来た実行 command の処理を行う。
+Host は OpenCL devices での kernel の実行を調整するために、
+command-queue を生成し context へ渡す。
+command-queue には以下の command がある。
+
+\begin{itemize}
+\item Kernel execution commands \\
+  実行コマンド queue
+\item Memory commands \\
+  データの送受信に関する情報(Host アドレス空間)
+\item Synchronization commands \\
+  command の依存や同期等に関する情報
+\end{itemize}
+
+また、OpenCL Device は4つの違うメモリ領域(Global Memory、Constant Memory、
+Local Memory、Private Memory)を持ち、それぞれ Host や CUs、PEs からの
+アクセス権限が異なる (アドレス空間が異なる)。
+
+プログラミングモデルとしては、データ並列、タスク並列をサポートしている。
+
+OpenCL は Host や 各 device に kernel があることや、
+device 毎にメモリアドレス空間が違う、プログラミングモデル等、
+TaskManager とよく似ている。
+
+OpenCL は汎用的な実装となっているため、
+例えばタスクのメモリアクセス API も複雑な記述となっている。
+対して TaskManager は、現在 Cell 環境に重きを置いているため、
+メモリアクセスは DMA に対応した記述が行われる。
+DMA では明示的にアドレスを指定することになるので、
+OpenCL よりも簡潔な記述が可能となっている。
+このことから、TaskManager は OpenCL の軽めな実装の一つという捉え方も出来る。
+
+OpenCL に対して TaskManager が優れている点は、Mac OS X や Linux、
+Cell といった複数の環境で動作することによる信頼性の確保のしやすさにある。
+TaskManager では、タスク毎に実行する CPU を選択できるため、
+動作環境が変わっても大幅なコードの変更が必要なく、
+Single Core プログラムとして動作させることができる。
+これにより、タスク単体やそれらを繋げたプログラム全体を
+逐次型プログラムと見なし、二分法などのデバッグ手法を用いることが出来る。
+このことは \figref{manycore_step} のような段階に沿って
+開発が可能になることに繋がる。
+
+\section{Gallium}
+
+Gallium3D \cite{gallium} とは Tungsten Graphics 社が開発している、
+オープンソースの 3D グラフィックドライバ である。
+現在、Gallium には Intel GPU (i915) と Cell のドライバが実装されており、
+OSMesa \cite{osmesa} ではこの Cell ドライバを用いている。
+現在の Cell Driver のバージョンは 0.2 で、
+Cell SDK (Software Development Kit) の version 2.1 もしくは 3.0が 必要となる。
+
+Gallium Cell Driver では、Triangle を SPE に送り、
+そこから得られた Span に対してテクスチャを貼りレンダリングする。
+この時、Tile と呼ばれる、分割した描画領域毎に FrameBuffer へ書き込む。
+SPE は 6 個使用しており、SPE 上では SIMD 演算を積極的に使用している。
+
+我々がレンダリングエンジンとして OSMesa を採用しなかった理由は
+先行研究 \cite{akira} で述べられているように、
+OSMesa の実装自体が非常に複雑で、SPE を使用するための拡張が困難であると
+判断したからである。
+その OSMesa の Cell 実装として OpenGL のドライバである Gallium が登場した
+ことにより、レンダリングエンジンとして Gallium を採用することを考えた。
+しかし、Cell 上でのゲーム開発において、
+レンダリングエンジンのみを SPE 上に実装しても、
+Amdahl 則を考慮すると並列度の確保が困難であると考えられる。
+よって、我々はレンダリングエンジンとして Gallium を採用せず、
+レンダリングだけではなく SceneGraph の動作も SPE 上で行わせる
+Cerium の開発を行っている。
+
+\subsection{実行速度比較}
+
+Cerium は OSMesa のレンダリング実装を参考にしているため、
+Gallium と同様のレンダリングを行っている。
+ここでは、Cerium と Gallium の実行速度を計測し比較した。
+例題プログラムとして、\figref{cerium_sg_example} の地球のオブジェクトを
+表示して (\figref{com_gallium}) 、SDL から得られる実行時間を元に
+FPS (Frame Per Second) を出力して比較する。解像度は 1920x1080 とする。
+Gallium、Cerium それぞれで以下のような実行環境を構築している。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.2]{images/com_gallium.pdf}
+    \caption{Gallium、Cerium 例題}
+    \label{fig:com_gallium}
+  \end{center}
+\end{figure}
+
+\subsubsection{実行環境構築 Gallium}
+
+Gallium の例題プログラムでは、Cell Driver が組み込まれている
+OpenGL library (libGL) をロードして実行する。
+また、\ref{sec:cerium_sg_xml} 節で説明した xml ファイル を用いて
+OpenGL の API で表示するルーチンは同研究室の杉山が実装した。
+以下がそのコードとなる。
+
+\begin{verbatim}
+void
+SceneGraph::gl_draw(void)
+{
+  glEnable(GL_TEXTURE_2D);
+  glBindTexture(GL_TEXTURE_2D, (GLuint)texture);
+
+  glTranslatef(xyz[0], xyz[1], xyz[2]);
+
+  glTranslatef(c_xyz[0], c_xyz[1], c_xyz[2]);
+  glRotatef(angle[0], 1, 0, 0);
+  glRotatef(angle[1], 0, 1, 0);
+  glRotatef(angle[2], 0, 0, 1);
+  glTranslatef(-c_xyz[0], -c_xyz[1], -c_xyz[2]);
+
+  glBegin( GL_TRIANGLES);
+  for(n = 0; n < size*3; n += 3) {
+      glTexCoord2f(tex_pos[n], 1-data[n+1]);
+      glVertex3f(coord[n], coord[n+1], coord[n+2]);
+      glNormal3f(normal[n], normal[n+1], normal[n+2]);
+  }
+  glEnd();
+  glDisable(GL_TEXTURE_2D);
+}
+\end{verbatim}
+
+\subsubsection{実行環境構築 Cerium}
+
+Cerium の描画出力は SDL Window と FrameBuffer の二種類ある。
+FrameBuffer では、SPE から直接 FrameBuffer へ DMA 転送により書き込むが、
+SDL Window 経由では、一度 PPE の バッファ (SDL\_Surface) へ書き込んでから
+FrameBuffer へ書き込む。以下がそのコードとなる。
+通常、SDL を用いる場合はこの様なコードになる。
+
+\begin{verbatim}
+  // bitmap : RGB値を持つ バッファ (SPE から書き込まれる)
+  // screen : FrameBuffer のアドレスを指す
+  SDL_BlitSurface(bitmap, NULL, screen, NULL);
+  SDL_UpdateRect(screen, 0, 0, 0, 0);
+\end{verbatim}
+
+\subsection{実行結果と考察}
+
+各環境の実行結果を \tabref{com_gallium} に示す。
+コンパイラの最適化レベルは -O9 を用いている。
+
+\begin{table}[htb]
+  \begin{center}
+    \caption{Gallium、Cerium 実行速度比較結果} \label{tab:com_gallium}
+    \hbox to\hsize{\hfil
+      \begin{tabular}{l|l} \hline \hline
+        Gallium (SPE 6個) & {\bf 5.4 FPS} \\ \hline
+        \hline
+        Cerium (SDL 出力、SPE 1個) & 2.2 FPS \\ \hline
+        Cerium (FrameBuffer 出力、SPE 1個) & 2.5 FPS \\ \hline
+        Cerium (SDL 出力、SPE 6個) & 6.7 FPS \\ \hline
+        Cerium (FrameBuffer 出力、SPE 6個) & {\bf 9.5 FPS} \\ \hline
+      \end{tabular}\hfil}
+  \end{center}
+\end{table}
+
+結果から、SPE の数が同じ場合は Cerium の方が Gallium よりも実行速度が
+速いと確認できた。
+また、直接 FrameBuffer に書き込む方が速いことも確認できる。
+
+Cerium では光源やシェーディング、アルファブレンディングなどの処理は
+行っておらず、現在は最低限のレンダリング機能しか実装していないため
+速度に差が出たのではないかと考えられる。
+しかし、Gallium と違い Cerium は SIMD 演算をまだ組み込んでいないため、
+%各種レンダリング機能を追加したとしても、
+さらに速度向上が期待できる。
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/conclusion.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,87 @@
+\chapter{結論} \label{chapter:conclusion}
+
+\section{まとめ}
+
+本稿では、Many Core Architecture を用いた、
+並列プログラムの開発をサポートするフレームワークとして
+Fine Grain Task Manager を提案し、Task Manager を用いて
+独自のレンダリングエンジンを持つPS3ゲーム開発フレームワークの
+Cerium を開発した。
+
+並列プログラミングの経験が浅い学生にとって、
+PS3 を用いたゲーム開発は困難で、学生実験の期間内に
+開発したゲームのレベルが毎年一定以上にはならないという問題があった。
+また、並列プログラムの特徴から、並列度の維持や信頼性の確保が困難であることが
+指摘されている。
+
+そこで、第\ref{chapter:taskmanager}章では
+並列プログラミングのフレームワークとして TaskManager の仕様と実装を説明し、
+この TaskManager を用いた Sort プログラムでは
+並列度が確保でき、台数効果が出ていることが確認できた。
+
+第\ref{chapter:cerium}章では、TaskManager を用いた、ゲーム開発用
+フレームワークである Cerium の仕様と実装を説明した。
+また、実際に学生に Cerium を用いてゲーム開発を行ってもらい、
+その結果から Cerium のフレームワークとしての有用性と
+今後必要な実装を確認できた。
+
+最後に、第\ref{chapter:compare}章では、
+Khronos OpenCL Working Group が開発している、
+並列プログラミングのフレームワークである OpenCL 及び、
+Cell で動作する OpenGL のドライバである Gallium3D について説明し、
+TaskManager 、Cerium との比較を行った。
+
+TaskManager 及び TaskManager を機能の一つとする Cerium は、
+学生にとって身近なアーキテクチャである Mac OS X や Linux、
+学生には困難な並列プログラミングが必要となる PS3 Cell など、
+複数の環境で動作することが可能である。
+学生が手を付けやすい環境から開発を始めることができ、
+大幅な変更なく PS3 上で動作を確認できる。
+更に、タスク単位で Cell に特化したプログラミングを行うことで
+PS3 上で動作するゲームの開発が可能となる。
+
+\section{今後の課題}
+
+\subsection{SceneGraph の SPE 上での実行}
+
+\ref{sec:cerium_student}節 で述べたように、現在 SceneGraph は
+メインスレッドのみで実行されている。
+衝突判定や行列演算など、SPE で効果的な演算を多くもつ SceneGraph を
+SPE 上で実行させる必要がある。
+
+%しかし、SPE には分岐予測命令がないため、
+%if 文を多用する木構造のアクセスはクリティカルな処理となる。
+%また、SPE 上で木の要素を追加した場合、それをメインメモリに反映させる
+%必要があるが、独立した要素毎にメインメモリへのアロケートを行うのも
+%重い処理となる。
+
+%そこで、SceneGraph を木構造ではなく、それを表す配列として持つ
+
+%そのために実装の必要がある機能を以下に示す。
+%
+%\begin{itemize}
+%\item SPE 上での SceneGraph の操作 (add, remove)
+%\item 
+%\end{itemize}
+
+\subsection{SPE 上での SIMD 演算の導入}
+
+現在の SPE 上での処理は全てスカラ演算で記述されており、
+SPE の機能を活用するには SIMD 演算を使用する方が効果的だと期待している。
+また、コンパイラの最適化により、自動的に SIMD 演算に変換されるような
+データ構造を採用するのも効果的だと考えている。
+
+\subsection{SPE 上でのテクスチャデータの管理}
+
+\ref{sec:cerium_rendering_texture_hash}節 で述べたように、
+現在テクスチャの追い出し処理は FIFO で実装している。
+そのため、テクスチャのヒット率が確保できない可能性がある。
+高いヒット率を維持するためには、さらに効果的な追い出し法を採用する必要がある。
+
+また、同じテクスチャを使う Span を同じ SPE に集めるなどの、
+データ構造や SPE への割り振り処理を修正する必要がある。
+
+テクスチャの圧縮による、SPE 上のテクスチャデータの保存数を増やすことも
+効果的だと考えられる。
+
+%\subsection{コードの入れ替え}
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+/DisplayImage
+{
+  %
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+  %   label pointsize.
+  %   image label.
+  %   image columns & rows.
+  %   class: 0-DirectClass or 1-PseudoClass.
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/manycore_data_split.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./manycore_data_split.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 587 154
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
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Binary file paper/images/manycore_data_split.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/manycore_step.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./manycore_step.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 549 335
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/manycore_step.graffle has changed
Binary file paper/images/manycore_step.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/rendering3.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./images/rendering3.pdf
+%%Creator: extractbb 20090506
+%%BoundingBox: 0 0 500 278
+%%CreationDate: Fri Feb 12 21:44:52 2010
+
Binary file paper/images/rendering3.graffle has changed
Binary file paper/images/rendering3.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_scheduler.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_scheduler.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 517 562
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_scheduler.graffle has changed
Binary file paper/images/tm_scheduler.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sm_global.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_sm_global.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 523 364
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_sm_global.graffle has changed
Binary file paper/images/tm_sm_global.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sm_pipeline_wait.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_sm_pipeline_wait.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 395 213
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_sm_pipeline_wait.graffle has changed
Binary file paper/images/tm_sm_pipeline_wait.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sm_pipeline_wait2.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_sm_pipeline_wait2.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 560 124
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_sm_pipeline_wait2.graffle has changed
Binary file paper/images/tm_sm_pipeline_wait2.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sm_rbuf.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_sm_rbuf.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 405 225
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_sm_rbuf.graffle has changed
Binary file paper/images/tm_sm_rbuf.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sm_state.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_sm_state.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 370 342
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_sm_state.graffle has changed
Binary file paper/images/tm_sm_state.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sm_wbuf.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_sm_wbuf.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 505 487
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_sm_wbuf.graffle has changed
Binary file paper/images/tm_sm_wbuf.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sort.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_sort.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 553 371
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_sort.graffle has changed
Binary file paper/images/tm_sort.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sort_calc.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_sort_calc.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 360 216
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_sort_calc.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sort_calc.txt	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,6 @@
+1 1 1
+2 1.9746994 2
+3 2.9360519 3
+4 3.8560168 4
+5 4.7757995 5
+6 5.6169992 6
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sort_calc1m.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_sort_calc1m.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 360 216
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_sort_calc1m.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sort_calc1m.plt	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,148 @@
+#!/opt/local/bin/gnuplot -persist
+#
+#    
+#    	G N U P L O T
+#    	Version 4.2 patchlevel 4 
+#    	last modified Sep 2008
+#    	System: Darwin 9.6.0
+#    
+#    	Copyright (C) 1986 - 1993, 1998, 2004, 2007, 2008
+#    	Thomas Williams, Colin Kelley and many others
+#    
+#    	Type `help` to access the on-line reference manual.
+#    	The gnuplot FAQ is available from http://www.gnuplot.info/faq/
+#    
+#    	Send bug reports and suggestions to <http://sourceforge.net/projects/gnuplot>
+#    
+# set terminal aqua 0 title "Figure 0" size 846 594 font "Times-Roman,14" noenhanced solid
+# set output 'tm_sort_calc1m.pdf'
+unset clip points
+set clip one
+unset clip two
+set bar 1.000000
+set border 31 front linetype -1 linewidth 1.000
+set xdata
+set ydata
+set zdata
+set x2data
+set y2data
+set timefmt x "%d/%m/%y,%H:%M"
+set timefmt y "%d/%m/%y,%H:%M"
+set timefmt z "%d/%m/%y,%H:%M"
+set timefmt x2 "%d/%m/%y,%H:%M"
+set timefmt y2 "%d/%m/%y,%H:%M"
+set timefmt cb "%d/%m/%y,%H:%M"
+set boxwidth
+set style fill  empty border
+set style rectangle back fc lt -3 fillstyle  solid 1.00 border -1
+set dummy x,y
+set format x "% g"
+set format y "% g"
+set format x2 "% g"
+set format y2 "% g"
+set format z "% g"
+set format cb "% g"
+set angles radians
+unset grid
+set key title ""
+set key inside right top vertical Right noreverse enhanced autotitles nobox
+set key noinvert samplen 4 spacing 1 width 0 height 0 
+unset label
+unset arrow
+set style increment default
+unset style line
+unset style arrow
+set style histogram clustered gap 2 title  offset character 0, 0, 0
+unset logscale
+set offsets 0, 0, 0, 0
+set pointsize 1
+set encoding default
+unset polar
+unset parametric
+unset decimalsign
+set view 60, 30, 1, 1
+set samples 100, 100
+set isosamples 10, 10
+set surface
+unset contour
+set clabel '%8.3g'
+set mapping cartesian
+set datafile separator whitespace
+unset hidden3d
+set cntrparam order 4
+set cntrparam linear
+set cntrparam levels auto 5
+set cntrparam points 5
+set size ratio 0 1,1
+set origin 0,0
+set style data points
+set style function lines
+set xzeroaxis linetype -2 linewidth 1.000
+set yzeroaxis linetype -2 linewidth 1.000
+set zzeroaxis linetype -2 linewidth 1.000
+set x2zeroaxis linetype -2 linewidth 1.000
+set y2zeroaxis linetype -2 linewidth 1.000
+set ticslevel 0.5
+set mxtics default
+set mytics default
+set mztics default
+set mx2tics default
+set my2tics default
+set mcbtics default
+set xtics border in scale 1,0.5 mirror norotate  offset character 0, 0, 0
+set xtics autofreq 
+set ytics border in scale 1,0.5 mirror norotate  offset character 0, 0, 0
+set ytics autofreq 
+set ztics border in scale 1,0.5 nomirror norotate  offset character 0, 0, 0
+set ztics autofreq 
+set nox2tics
+set y2tics border in scale 1,0.5 nomirror norotate  offset character 0, 0, 0
+set y2tics 200.000,200
+set cbtics border in scale 1,0.5 mirror norotate  offset character 0, 0, 0
+set cbtics autofreq 
+set title "SPEs number effect" 
+set title  offset character 0, 0, 0 font "" norotate
+set timestamp bottom 
+set timestamp "" 
+set timestamp  offset character 0, 0, 0 font "" norotate
+set rrange [ * : * ] noreverse nowriteback  # (currently [0.00000:10.0000] )
+set trange [ * : * ] noreverse nowriteback  # (currently [-5.00000:5.00000] )
+set urange [ * : * ] noreverse nowriteback  # (currently [-5.00000:5.00000] )
+set vrange [ * : * ] noreverse nowriteback  # (currently [-5.00000:5.00000] )
+set xlabel "SPE NUM" 
+set xlabel  offset character 0, 0, 0 font "" textcolor lt -1 norotate
+set x2label "" 
+set x2label  offset character 0, 0, 0 font "" textcolor lt -1 norotate
+set xrange [ * : * ] noreverse nowriteback  # (currently [-10.0000:10.0000] )
+set x2range [ * : * ] noreverse nowriteback  # (currently [-10.0000:10.0000] )
+set ylabel "effect" 
+set ylabel  offset character 0, 0, 0 font "" textcolor lt -1 rotate by 90
+set y2label "time(sec)" 
+set y2label  offset character 0, 0, 0 font "" textcolor lt -1 rotate by 90
+set yrange [ * : * ] noreverse nowriteback  # (currently [-10.0000:10.0000] )
+set y2range [ 200.000 : 1100.00 ] noreverse nowriteback
+set zlabel "" 
+set zlabel  offset character 0, 0, 0 font "" textcolor lt -1 norotate
+set zrange [ * : * ] noreverse nowriteback  # (currently [-10.0000:10.0000] )
+set cblabel "" 
+set cblabel  offset character 0, 0, 0 font "" textcolor lt -1 rotate by 90
+set cbrange [ * : * ] noreverse nowriteback  # (currently [-10.0000:10.0000] )
+set zero 1e-08
+set lmargin  -1
+set bmargin  -1
+set rmargin  -1
+set tmargin  -1
+set locale "C"
+set pm3d explicit at s
+set pm3d scansautomatic
+set pm3d interpolate 1,1 flush begin noftriangles nohidden3d corners2color mean
+set palette positive nops_allcF maxcolors 0 gamma 1.5 color model RGB 
+set palette rgbformulae 7, 5, 15
+set colorbox default
+set colorbox vertical origin screen 0.9, 0.2, 0 size screen 0.05, 0.6, 0 front bdefault
+set loadpath 
+set fontpath 
+set fit noerrorvariables
+GNUTERM = "aqua"
+p 'tm_sort_calc1m.txt' using 1:3 title 'number effect' with lines, 'tm_sort_calc1m.txt' using 1:2 title 'sort time' axes x1y2 with lines
+#    EOF
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sort_calc1m.txt	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,6 @@
+1 1080.842031 1
+2  557.823441 1.937605
+3  383.732214 2.816657
+4  295.992751 3.651582
+5  243.952017 4.430551
+6  209.308946 5.163859
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_sync.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_sync.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 577 554
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_sync.graffle has changed
Binary file paper/images/tm_sync.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_task_depend.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_task_depend.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 527 383
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_task_depend.graffle has changed
Binary file paper/images/tm_task_depend.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_task_post.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_task_post.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 335 388
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_task_post.graffle has changed
Binary file paper/images/tm_task_post.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/tm_task_struct.bb	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,5 @@
+%%Title: ./tm_task_struct.pdf
+%%Creator: ebb Version 0.5.2 (+ArtBox)
+%%BoundingBox: 0 0 591 364
+%%CreationDate: Fri Feb 13 21:49:42 2009
+
Binary file paper/images/tm_task_struct.graffle has changed
Binary file paper/images/tm_task_struct.pdf has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/images/u-ryukyu-Mark.eps	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,1 @@
+%!PS-Adobe-3.0 EPSF-3.0
%%Creator: Adobe Illustrator(TM) 6.0
%%For: (\216\251\227\247\225\252\216U\203V\203X\203e\203\200\214\244\213\206\216\272) ()
%%Title: (u-ryukyu_Mark2.eps)
%%CreationDate: (2/19/01) (2:50 PM)
%%BoundingBox: 1 4 195 200
%%HiResBoundingBox: 1.3735 4.3999 194.5 199.3999
%%DocumentProcessColors: Black
%%DocumentSuppliedResources: procset Adobe_level2_AI5 1.2 0
%%+ procset Adobe_ColorImage_AI6 1.1 0
%%+ procset Adobe_Illustrator_AI5 1.0 0
%AI5_FileFormat 3
%AI3_ColorUsage: Black&White
%AI3_IncludePlacedImages
%%CMYKCustomColor: 1 0 0.55 0 (Aqua)
%%+ 1 0.5 0 0 (Blue)
%%+ 0.5 0.4 0.3 0 (Blue Gray)
%%+ 0.8 0.05 0 0 (Blue Sky)
%%+ 0.5 0.85 1 0 (Brown)
%%+ 1 0.9 0.1 0 (Dark Blue)
%%+ 1 0.55 1 0 (Forest Green)
%%+ 0.05 0.2 0.95 0 (Gold)
%%+ 0.75 0.05 1 0 (Grass Green)
%%+ 0 0.45 1 0 (Orange)
%%+ 0.15 1 1 0 (Red)
%%+ 0.45 0.9 0 0 (Violet)
%%AI6_ColorSeparationSet: 1 1 (AI6 Default Color Separation Set) 
%%+ Options: 1 16 0 1 0 1 1 1 0 1 1 1 1 8.504 0 0 0 0 0 0 0 0 -1 -1
%%+ PPD: 1 21 0 0 60 45 2 2 1 0 0 1 0 0 0 0 0 0 0 0 0 0 () 
%AI3_TemplateBox: 100 102 100 102
%AI3_TileBox: 0 0 538 781
%AI3_DocumentPreview: Header
%AI5_ArtSize: 612 792
%AI5_RulerUnits: 1
%AI5_ArtFlags: 1 0 0 1 0 0 1 0 0
%AI5_TargetResolution: 800
%AI5_NumLayers: 1
%AI5_OpenToView: -284 390 1 794 557 18 0 1 3 40 0 0
%AI5_OpenViewLayers: 7
%%PageOrigin:0 0
%%AI3_PaperRect:-28 811 567 -31
%%AI3_Margin:28 -30 -29 31
%AI7_GridSettings: 72 8 72 8 1 0 0.8 0.8 0.8 0.9 0.9 0.9
%%EndComments
%%BeginProlog
%%BeginResource: procset Adobe_level2_AI5 1.2 0
%%Title: (Adobe Illustrator (R) Version 5.0 Level 2 Emulation)
%%Version: 1.2 0
%%CreationDate: (04/10/93) ()
%%Copyright: ((C) 1987-1996 Adobe Systems Incorporated All Rights Reserved)
userdict /Adobe_level2_AI5 25 dict dup begin
	put
	/packedarray where not
	{
		userdict begin
		/packedarray
		{
			array astore readonly
		} bind def
		/setpacking /pop load def
		/currentpacking false def
	 end
		0
	} if
	pop
	userdict /defaultpacking currentpacking put true setpacking
	/initialize
	{
		Adobe_level2_AI5 begin
	} bind def
	/terminate
	{
		currentdict Adobe_level2_AI5 eq
		{
		 end
		} if
	} bind def
	mark
	/setcustomcolor where not
	{
		/findcmykcustomcolor
		{
			0
			6 packedarray
		} bind def
		/findrgbcustomcolor
		{
			1
			5 packedarray
		} bind def
		/setcustomcolor
		{
			exch 
			aload pop 
			0 eq
			{
				pop
				4
				{
					4 index mul
					4 1 roll
				} repeat
				5 -1 roll pop
				setcmykcolor
			}
			{
				pop
				3
				{
					1 exch sub
					3 index mul 
					1 exch sub
					3 1 roll
				} repeat
				4 -1 roll pop
				setrgbcolor
			} ifelse
		}
		def
	} if
	
	/gt38? mark {version cvr cvx exec} stopped {cleartomark true} {38 gt exch pop} ifelse def
	userdict /deviceDPI 72 0 matrix defaultmatrix dtransform dup mul exch dup mul add sqrt put
	userdict /level2?
	systemdict /languagelevel known dup
	{
		pop systemdict /languagelevel get 2 ge
	} if
	put
/level2ScreenFreq
{
 begin
		60
		HalftoneType 1 eq
		{
			pop Frequency
		} if
		HalftoneType 2 eq
		{
			pop GrayFrequency
		} if
		HalftoneType 5 eq
		{
			pop Default level2ScreenFreq
		} if
 end
} bind def
userdict /currentScreenFreq  
	level2? {currenthalftone level2ScreenFreq} {currentscreen pop pop} ifelse put
level2? not
	{
		/setcmykcolor where not
		{
			/setcmykcolor
			{
				exch .11 mul add exch .59 mul add exch .3 mul add
				1 exch sub setgray
			} def
		} if
		/currentcmykcolor where not
		{
			/currentcmykcolor
			{
				0 0 0 1 currentgray sub
			} def
		} if
		/setoverprint where not
		{
			/setoverprint /pop load def
		} if
		/selectfont where not
		{
			/selectfont
			{
				exch findfont exch
				dup type /arraytype eq
				{
					makefont
				}
				{
					scalefont
				} ifelse
				setfont
			} bind def
		} if
		/cshow where not
		{
			/cshow
			{
				[
				0 0 5 -1 roll aload pop
				] cvx bind forall
			} bind def
		} if
	} if
	cleartomark
	/anyColor?
	{
		add add add 0 ne
	} bind def
	/testColor
	{
		gsave
		setcmykcolor currentcmykcolor
		grestore
	} bind def
	/testCMYKColorThrough
	{
		testColor anyColor?
	} bind def
	userdict /composite?
	level2?
	{
		gsave 1 1 1 1 setcmykcolor currentcmykcolor grestore
		add add add 4 eq
	}
	{
		1 0 0 0 testCMYKColorThrough
		0 1 0 0 testCMYKColorThrough
		0 0 1 0 testCMYKColorThrough
		0 0 0 1 testCMYKColorThrough
		and and and
	} ifelse
	put
	composite? not
	{
		userdict begin
		gsave
		/cyan? 1 0 0 0 testCMYKColorThrough def
		/magenta? 0 1 0 0 testCMYKColorThrough def
		/yellow? 0 0 1 0 testCMYKColorThrough def
		/black? 0 0 0 1 testCMYKColorThrough def
		grestore
		/isCMYKSep? cyan? magenta? yellow? black? or or or def
		/customColor? isCMYKSep? not def
	 end
	} if
 end defaultpacking setpacking
%%EndResource
%%BeginProcSet: Adobe_ColorImage_AI6 1.1 0
userdict /Adobe_ColorImage_AI6 known not
{
	userdict /Adobe_ColorImage_AI6 24 dict put 
} if
userdict /Adobe_ColorImage_AI6 get begin
/initialize
{ 
	Adobe_ColorImage_AI6 begin
	Adobe_ColorImage_AI6
	{
		dup type /arraytype eq
		{
			dup xcheck
			{
				bind
			} if
		} if
		pop pop
	} forall
} def
/terminate { end } def
currentdict /Adobe_ColorImage_AI6_Vars known not
{
	/Adobe_ColorImage_AI6_Vars 15 dict def
} if
Adobe_ColorImage_AI6_Vars begin
	/channelcount 0 def
	/sourcecount 0 def
	/sourcearray 4 array def
	/plateindex -1 def
	/XIMask 0 def
	/XIBinary 0 def
	/XIChannelCount 0 def
	/XIBitsPerPixel 0 def
	/XIImageHeight 0 def
	/XIImageWidth 0 def
	/XIImageMatrix null def
	/XIBuffer null def
	/XIDataProc null def
	/XIVersion 6 def
end
/WalkRGBString null def
/WalkCMYKString null def
/StuffRGBIntoGrayString null def
/RGBToGrayImageProc null def
/StuffCMYKIntoGrayString null def
/CMYKToGrayImageProc null def
/ColorImageCompositeEmulator null def
/SeparateCMYKImageProc null def
/FourEqual null def
/TestPlateIndex null def
currentdict /_colorimage known not
{
	/colorimage where
	{
		/colorimage get /_colorimage exch def
	}
	{
		/_colorimage null def
	} ifelse
} if
/_currenttransfer systemdict /currenttransfer get def
/colorimage null def
/XI null def
/WalkRGBString
{
	0 3 index
	dup length 1 sub 0 3 3 -1 roll
	{
		3 getinterval { } forall
		5 index exec
		3 index
	} for
	
	 5 { pop } repeat
} def
/WalkCMYKString
{
	0 3 index
	dup length 1 sub 0 4 3 -1 roll
	{
		4 getinterval { } forall
		
		6 index exec
		
		3 index
		
	} for
	
	5 { pop } repeat
	
} def
/StuffRGBIntoGrayString
{
	.11 mul exch
	
	.59 mul add exch
	
	.3 mul add
	
	cvi 3 copy put
	
	pop 1 add
} def
/RGBToGrayImageProc
{	
	Adobe_ColorImage_AI6_Vars begin 
		sourcearray 0 get exec
		dup length 3 idiv string
		dup 3 1 roll 
		
		/StuffRGBIntoGrayString load exch
		WalkRGBString
 end
} def
/StuffCMYKIntoGrayString
{
	exch .11 mul add
	
	exch .59 mul add
	
	exch .3 mul add
	
	dup 255 gt { pop 255 } if
	
	255 exch sub cvi 3 copy put
	
	pop 1 add
} def
/CMYKToGrayImageProc
{	
	Adobe_ColorImage_AI6_Vars begin
		sourcearray 0 get exec
		dup length 4 idiv string
		dup 3 1 roll 
		
		/StuffCMYKIntoGrayString load exch
		WalkCMYKString
 end
} def
/ColorImageCompositeEmulator
{
	pop true eq
	{
		Adobe_ColorImage_AI6_Vars /sourcecount get 5 add { pop } repeat
	}
	{
		Adobe_ColorImage_AI6_Vars /channelcount get 1 ne
		{
			Adobe_ColorImage_AI6_Vars begin
				sourcearray 0 3 -1 roll put
			
				channelcount 3 eq 
				{ 
					/RGBToGrayImageProc 
				}
				{ 
					/CMYKToGrayImageProc
				} ifelse
				load
		 end
		} if
		image
	} ifelse
} def
/SeparateCMYKImageProc
{	
	Adobe_ColorImage_AI6_Vars begin
		sourcecount 0 ne
		{
			sourcearray plateindex get exec
		}
		{			
			sourcearray 0 get exec
			
			dup length 4 idiv string
			
			0 2 index
			
			plateindex 4 2 index length 1 sub
			{
				get 255 exch sub
				
				3 copy put pop 1 add
				
				2 index
			} for
			pop pop exch pop
		} ifelse
 end
} def
	
/FourEqual
{
	4 index ne
	{
		pop pop pop false
	}
	{
		4 index ne
		{
			pop pop false
		}
		{
			4 index ne
			{
				pop false
			}
			{
				4 index eq
			} ifelse
		} ifelse
	} ifelse
} def
/TestPlateIndex
{
	Adobe_ColorImage_AI6_Vars begin
		/plateindex -1 def
		/setcmykcolor where
		{
			pop
			gsave
			1 0 0 0 setcmykcolor systemdict /currentgray get exec 1 exch sub
			0 1 0 0 setcmykcolor systemdict /currentgray get exec 1 exch sub
			0 0 1 0 setcmykcolor systemdict /currentgray get exec 1 exch sub
			0 0 0 1 setcmykcolor systemdict /currentgray get exec 1 exch sub
			grestore
			1 0 0 0 FourEqual 
			{ 
				/plateindex 0 def
			}
			{
				0 1 0 0 FourEqual
				{ 
					/plateindex 1 def
				}
				{
					0 0 1 0 FourEqual
					{
						/plateindex 2 def
					}
					{
						0 0 0 1 FourEqual
						{ 
							/plateindex 3 def
						}
						{
							0 0 0 0 FourEqual
							{
								/plateindex 5 def
							} if
						} ifelse
					} ifelse
				} ifelse
			} ifelse
			pop pop pop pop
		} if
		plateindex
 end
} def
/colorimage
{
	Adobe_ColorImage_AI6_Vars begin
		/channelcount 1 index def
		/sourcecount 2 index 1 eq { channelcount 1 sub } { 0 } ifelse def
		4 sourcecount add index dup 
		8 eq exch 1 eq or not
 end
	
	{
		/_colorimage load null ne
		{
			_colorimage
		}
		{
			Adobe_ColorImage_AI6_Vars /sourcecount get
			7 add { pop } repeat
		} ifelse
	}
	{
		dup 3 eq
		TestPlateIndex
		dup -1 eq exch 5 eq or or
		{
			/_colorimage load null eq
			{
				ColorImageCompositeEmulator
			}
			{
				dup 1 eq
				{
					pop pop image
				}
				{
					Adobe_ColorImage_AI6_Vars /plateindex get 5 eq
					{
						gsave
						
						0 _currenttransfer exec
						1 _currenttransfer exec
						eq
						{ 0 _currenttransfer exec 0.5 lt }
						{ 0 _currenttransfer exec 1 _currenttransfer exec gt } ifelse
						
						{ { pop 0 } } { { pop 1 } } ifelse
						systemdict /settransfer get exec
					} if
					
					_colorimage
					
					Adobe_ColorImage_AI6_Vars /plateindex get 5 eq
					{
						grestore
					} if
				} ifelse
			} ifelse
		}
		{
			dup 1 eq
			{
				pop pop
				image
			}
			{
				pop pop
				Adobe_ColorImage_AI6_Vars begin
					sourcecount -1 0
					{			
						exch sourcearray 3 1 roll put
					} for
					/SeparateCMYKImageProc load
			 end
				systemdict /image get exec
			} ifelse
		} ifelse
	} ifelse
} def
/XG
{
	pop pop
} def
/XF
{
	13 {pop} repeat
} def
/Xh
{
	Adobe_ColorImage_AI6_Vars begin
		gsave
		/XIMask exch 0 ne def
		/XIImageHeight exch def
		/XIImageWidth exch def
		/XIImageMatrix exch def
		0 0 moveto
		XIImageMatrix concat
		XIImageWidth XIImageHeight scale
		
		XIMask
		{
			/_lp /null ddef
			_fc
			/_lp /imagemask ddef
		}
		if
		/XIVersion 7 def
 end
} def
/XH
{
	Adobe_ColorImage_AI6_Vars begin
		/XIVersion 6 def
		grestore
 end
} def
/XI
{
	Adobe_ColorImage_AI6_Vars begin
		gsave
		/XIMask exch 0 ne def
		/XIBinary exch 0 ne def
		pop
		pop
		/XIChannelCount exch def
		/XIBitsPerPixel exch def
		/XIImageHeight exch def
		/XIImageWidth exch def
		pop pop pop pop
		/XIImageMatrix exch def
		XIBitsPerPixel 1 eq
		{
			XIImageWidth 8 div ceiling cvi
		}
		{
			XIImageWidth XIChannelCount mul
		} ifelse
		/XIBuffer exch string def
		XIBinary
		{
			/XIDataProc { currentfile XIBuffer readstring pop } def
			XIVersion 6 le
			{
				currentfile 128 string readline pop pop
			}
			if
		}
		{
			/XIDataProc { currentfile XIBuffer readhexstring pop } def
		} ifelse
		
		XIVersion 6 le
		{
			0 0 moveto
			XIImageMatrix concat
			XIImageWidth XIImageHeight scale
			XIMask
			{
				/_lp /null ddef
				_fc
				/_lp /imagemask ddef
			} if
		} if
		
		XIMask
		{
			XIImageWidth XIImageHeight
			false
			[ XIImageWidth 0 0 XIImageHeight neg 0 0 ]
			/XIDataProc load
			imagemask
		}
		{
			XIImageWidth XIImageHeight
			XIBitsPerPixel
			[ XIImageWidth 0 0 XIImageHeight neg 0 0 ]
			/XIDataProc load
			
			XIChannelCount 1 eq
			{
				gsave
				0 setgray
				image
				grestore
			}
			{
				false
				XIChannelCount
				colorimage
			} ifelse
		} ifelse
		grestore
 end
} def
end
%%EndProcSet
%%BeginResource: procset Adobe_Illustrator_AI5 1.1 0
%%Title: (Adobe Illustrator (R) Version 5.0 Full Prolog)
%%Version: 1.1 0
%%CreationDate: (3/7/1994) ()
%%Copyright: ((C) 1987-1996 Adobe Systems Incorporated All Rights Reserved)
currentpacking true setpacking
userdict /Adobe_Illustrator_AI5_vars 81 dict dup begin
put
/_eo false def
/_lp /none def
/_pf
{
} def
/_ps
{
} def
/_psf
{
} def
/_pss
{
} def
/_pjsf
{
} def
/_pjss
{
} def
/_pola 0 def
/_doClip 0 def
/cf currentflat def
/_tm matrix def
/_renderStart
[
/e0 /r0 /a0 /o0 /e1 /r1 /a1 /i0
] def
/_renderEnd
[
null null null null /i1 /i1 /i1 /i1
] def
/_render -1 def
/_rise 0 def
/_ax 0 def
/_ay 0 def
/_cx 0 def
/_cy 0 def
/_leading
[
0 0
] def
/_ctm matrix def
/_mtx matrix def
/_sp 16#020 def
/_hyphen (-) def
/_fScl 0 def
/_cnt 0 def
/_hs 1 def
/_nativeEncoding 0 def
/_useNativeEncoding 0 def
/_tempEncode 0 def
/_pntr 0 def
/_tDict 2 dict def
/_wv 0 def
/Tx
{
} def
/Tj
{
} def
/CRender
{
} def
/_AI3_savepage
{
} def
/_gf null def
/_cf 4 array def
/_if null def
/_of false def
/_fc
{
} def
/_gs null def
/_cs 4 array def
/_is null def
/_os false def
/_sc
{
} def
/_pd 1 dict def
/_ed 15 dict def
/_pm matrix def
/_fm null def
/_fd null def
/_fdd null def
/_sm null def
/_sd null def
/_sdd null def
/_i null def
/discardSave null def
/buffer 256 string def
/beginString null def
/endString null def
/endStringLength null def
/layerCnt 1 def
/layerCount 1 def
/perCent (%) 0 get def
/perCentSeen? false def
/newBuff null def
/newBuffButFirst null def
/newBuffLast null def
/clipForward? false def
end
userdict /Adobe_Illustrator_AI5 known not {
	userdict /Adobe_Illustrator_AI5 91 dict put
} if
userdict /Adobe_Illustrator_AI5 get begin
/initialize
{
	Adobe_Illustrator_AI5 dup begin
	Adobe_Illustrator_AI5_vars begin
	discardDict
	{
		bind pop pop
	} forall
	dup /nc get begin
	{
		dup xcheck 1 index type /operatortype ne and
		{
			bind
		} if
		pop pop
	} forall
 end
	newpath
} def
/terminate
{
 end
 end
} def
/_
null def
/ddef
{
	Adobe_Illustrator_AI5_vars 3 1 roll put
} def
/xput
{
	dup load dup length exch maxlength eq
	{
		dup dup load dup
		length 2 mul dict copy def
	} if
	load begin
	def
 end
} def
/npop
{
	{
		pop
	} repeat
} def
/sw
{
	dup length exch stringwidth
	exch 5 -1 roll 3 index mul add
	4 1 roll 3 1 roll mul add
} def
/swj
{
	dup 4 1 roll
	dup length exch stringwidth
	exch 5 -1 roll 3 index mul add
	4 1 roll 3 1 roll mul add
	6 2 roll /_cnt 0 ddef
	{
		1 index eq
		{
			/_cnt _cnt 1 add ddef
		} if
	} forall
	pop
	exch _cnt mul exch _cnt mul 2 index add 4 1 roll 2 index add 4 1 roll pop pop
} def
/ss
{
	4 1 roll
	{
		2 npop
		(0) exch 2 copy 0 exch put pop
		gsave
		false charpath currentpoint
		4 index setmatrix
		stroke
		grestore
		moveto
		2 copy rmoveto
	} exch cshow
	3 npop
} def
/jss
{
	4 1 roll
	{
		2 npop
		(0) exch 2 copy 0 exch put
		gsave
		_sp eq
		{
			exch 6 index 6 index 6 index 5 -1 roll widthshow
			currentpoint
		}
		{
			false charpath currentpoint
			4 index setmatrix stroke
		} ifelse
		grestore
		moveto
		2 copy rmoveto
	} exch cshow
	6 npop
} def
/sp
{
	{
		2 npop (0) exch
		2 copy 0 exch put pop
		false charpath
		2 copy rmoveto
	} exch cshow
	2 npop
} def
/jsp
{
	{
		2 npop
		(0) exch 2 copy 0 exch put
		_sp eq
		{
			exch 5 index 5 index 5 index 5 -1 roll widthshow
		}
		{
			false charpath
		} ifelse
		2 copy rmoveto
	} exch cshow
	5 npop
} def
/pl
{
	transform
	0.25 sub round 0.25 add exch
	0.25 sub round 0.25 add exch
	itransform
} def
/setstrokeadjust where
{
	pop true setstrokeadjust
	/c
	{
		curveto
	} def
	/C
	/c load def
	/v
	{
		currentpoint 6 2 roll curveto
	} def
	/V
	/v load def
	/y
	{
		2 copy curveto
	} def
	/Y
	/y load def
	/l
	{
		lineto
	} def
	/L
	/l load def
	/m
	{
		moveto
	} def
}
{
	/c
	{
		pl curveto
	} def
	/C
	/c load def
	/v
	{
		currentpoint 6 2 roll pl curveto
	} def
	/V
	/v load def
	/y
	{
		pl 2 copy curveto
	} def
	/Y
	/y load def
	/l
	{
		pl lineto
	} def
	/L
	/l load def
	/m
	{
		pl moveto
	} def
} ifelse
/d
{
	setdash
} def
/cf
{
} def
/i
{
	dup 0 eq
	{
		pop cf
	} if
	setflat
} def
/j
{
	setlinejoin
} def
/J
{
	setlinecap
} def
/M
{
	setmiterlimit
} def
/w
{
	setlinewidth
} def
/XR
{
	0 ne
	/_eo exch ddef
} def
/H
{
} def
/h
{
	closepath
} def
/N
{
	_pola 0 eq
	{
		_doClip 1 eq
		{
			_eo {eoclip} {clip} ifelse /_doClip 0 ddef
		} if
		newpath
	}
	{
		/CRender
		{
			N
		} ddef
	} ifelse
} def
/n
{
	N
} def
/F
{
	_pola 0 eq
	{
		_doClip 1 eq
		{
			gsave _pf grestore _eo {eoclip} {clip} ifelse newpath /_lp /none ddef _fc
			/_doClip 0 ddef
		}
		{
			_pf
		} ifelse
	}
	{
		/CRender
		{
			F
		} ddef
	} ifelse
} def
/f
{
	closepath
	F
} def
/S
{
	_pola 0 eq
	{
		_doClip 1 eq
		{
			gsave _ps grestore _eo {eoclip} {clip} ifelse newpath /_lp /none ddef _sc
			/_doClip 0 ddef
		}
		{
			_ps
		} ifelse
	}
	{
		/CRender
		{
			S
		} ddef
	} ifelse
} def
/s
{
	closepath
	S
} def
/B
{
	_pola 0 eq
	{
		_doClip 1 eq
		gsave F grestore
		{
			gsave S grestore _eo {eoclip} {clip} ifelse newpath /_lp /none ddef _sc
			/_doClip 0 ddef
		}
		{
			S
		} ifelse
	}
	{
		/CRender
		{
			B
		} ddef
	} ifelse
} def
/b
{
	closepath
	B
} def
/W
{
	/_doClip 1 ddef
} def
/*
{
	count 0 ne
	{
		dup type /stringtype eq
		{
			pop
		} if
	} if
	newpath
} def
/u
{
} def
/U
{
} def
/q
{
	_pola 0 eq
	{
		gsave
	} if
} def
/Q
{
	_pola 0 eq
	{
		grestore
	} if
} def
/*u
{
	_pola 1 add /_pola exch ddef
} def
/*U
{
	_pola 1 sub /_pola exch ddef
	_pola 0 eq
	{
		CRender
	} if
} def
/D
{
	pop
} def
/*w
{
} def
/*W
{
} def
/`
{
	/_i save ddef
	clipForward?
	{
		nulldevice
	} if
	6 1 roll 4 npop
	concat pop
	userdict begin
	/showpage
	{
	} def
	0 setgray
	0 setlinecap
	1 setlinewidth
	0 setlinejoin
	10 setmiterlimit
	[] 0 setdash
	/setstrokeadjust where {pop false setstrokeadjust} if
	newpath
	0 setgray
	false setoverprint
} def
/~
{
 end
	_i restore
} def
/O
{
	0 ne
	/_of exch ddef
	/_lp /none ddef
} def
/R
{
	0 ne
	/_os exch ddef
	/_lp /none ddef
} def
/g
{
	/_gf exch ddef
	/_fc
	{
		_lp /fill ne
		{
			_of setoverprint
			_gf setgray
			/_lp /fill ddef
		} if
	} ddef
	/_pf
	{
		_fc
		_eo {eofill} {fill} ifelse
	} ddef
	/_psf
	{
		_fc
		ashow
	} ddef
	/_pjsf
	{
		_fc
		awidthshow
	} ddef
	/_lp /none ddef
} def
/G
{
	/_gs exch ddef
	/_sc
	{
		_lp /stroke ne
		{
			_os setoverprint
			_gs setgray
			/_lp /stroke ddef
		} if
	} ddef
	/_ps
	{
		_sc
		stroke
	} ddef
	/_pss
	{
		_sc
		ss
	} ddef
	/_pjss
	{
		_sc
		jss
	} ddef
	/_lp /none ddef
} def
/k
{
	_cf astore pop
	/_fc
	{
		_lp /fill ne
		{
			_of setoverprint
			_cf aload pop setcmykcolor
			/_lp /fill ddef
		} if
	} ddef
	/_pf
	{
		_fc
		_eo {eofill} {fill} ifelse
	} ddef
	/_psf
	{
		_fc
		ashow
	} ddef
	/_pjsf
	{
		_fc
		awidthshow
	} ddef
	/_lp /none ddef
} def
/K
{
	_cs astore pop
	/_sc
	{
		_lp /stroke ne
		{
			_os setoverprint
			_cs aload pop setcmykcolor
			/_lp /stroke ddef
		} if
	} ddef
	/_ps
	{
		_sc
		stroke
	} ddef
	/_pss
	{
		_sc
		ss
	} ddef
	/_pjss
	{
		_sc
		jss
	} ddef
	/_lp /none ddef
} def
/x
{
	/_gf exch ddef
	findcmykcustomcolor
	/_if exch ddef
	/_fc
	{
		_lp /fill ne
		{
			_of setoverprint
			_if _gf 1 exch sub setcustomcolor
			/_lp /fill ddef
		} if
	} ddef
	/_pf
	{
		_fc
		_eo {eofill} {fill} ifelse
	} ddef
	/_psf
	{
		_fc
		ashow
	} ddef
	/_pjsf
	{
		_fc
		awidthshow
	} ddef
	/_lp /none ddef
} def
/X
{
	/_gs exch ddef
	findcmykcustomcolor
	/_is exch ddef
	/_sc
	{
		_lp /stroke ne
		{
			_os setoverprint
			_is _gs 1 exch sub setcustomcolor
			/_lp /stroke ddef
		} if
	} ddef
	/_ps
	{
		_sc
		stroke
	} ddef
	/_pss
	{
		_sc
		ss
	} ddef
	/_pjss
	{
		_sc
		jss
	} ddef
	/_lp /none ddef
} def
/A
{
	pop
} def
/annotatepage
{
userdict /annotatepage 2 copy known {get exec} {pop pop} ifelse
} def
/XT {
	pop pop
} def
/discard
{
	save /discardSave exch store
	discardDict begin
	/endString exch store
	gt38?
	{
		2 add
	} if
	load
	stopped
	pop
 end
	discardSave restore
} bind def
userdict /discardDict 7 dict dup begin
put
/pre38Initialize
{
	/endStringLength endString length store
	/newBuff buffer 0 endStringLength getinterval store
	/newBuffButFirst newBuff 1 endStringLength 1 sub getinterval store
	/newBuffLast newBuff endStringLength 1 sub 1 getinterval store
} def
/shiftBuffer
{
	newBuff 0 newBuffButFirst putinterval
	newBuffLast 0
	currentfile read not
	{
	stop
	} if
	put
} def
0
{
	pre38Initialize
	mark
	currentfile newBuff readstring exch pop
	{
		{
			newBuff endString eq
			{
				cleartomark stop
			} if
			shiftBuffer
		} loop
	}
	{
	stop
	} ifelse
} def
1
{
	pre38Initialize
	/beginString exch store
	mark
	currentfile newBuff readstring exch pop
	{
		{
			newBuff beginString eq
			{
				/layerCount dup load 1 add store
			}
			{
				newBuff endString eq
				{
					/layerCount dup load 1 sub store
					layerCount 0 eq
					{
						cleartomark stop
					} if
				} if
			} ifelse
			shiftBuffer
		} loop
	} if
} def
2
{
	mark
	{
		currentfile buffer readline not
		{
		stop
		} if
		endString eq
		{
			cleartomark stop
		} if
	} loop
} def
3
{
	/beginString exch store
	/layerCnt 1 store
	mark
	{
		currentfile buffer readline not
		{
		stop
		} if
		dup beginString eq
		{
			pop /layerCnt dup load 1 add store
		}
		{
			endString eq
			{
				layerCnt 1 eq
				{
					cleartomark stop
				}
				{
					/layerCnt dup load 1 sub store
				} ifelse
			} if
		} ifelse
	} loop
} def
end
userdict /clipRenderOff 15 dict dup begin
put
{
	/n /N /s /S /f /F /b /B
}
{
	{
		_doClip 1 eq
		{
			/_doClip 0 ddef _eo {eoclip} {clip} ifelse
		} if
		newpath
	} def
} forall
/Tr /pop load def
/Bb {} def
/BB /pop load def
/Bg {12 npop} def
/Bm {6 npop} def
/Bc /Bm load def
/Bh {4 npop} def
end
/Lb
{
	4 npop
	6 1 roll
	pop
	4 1 roll
	pop pop pop
	0 eq
	{
		0 eq
		{
			(%AI5_BeginLayer) 1 (%AI5_EndLayer--) discard
		}
		{
			
			/clipForward? true def
			
			/Tx /pop load def
			/Tj /pop load def
			
			currentdict end clipRenderOff begin begin
		} ifelse
	}
	{
		0 eq
		{
			save /discardSave exch store
		} if
	} ifelse
} bind def
/LB
{
	discardSave dup null ne
	{
		restore
	}
	{
		pop
		clipForward?
		{
			currentdict
		 end
		 end
		 begin
					
			/clipForward? false ddef
		} if
	} ifelse
} bind def
/Pb
{
	pop pop
	0 (%AI5_EndPalette) discard
} bind def
/Np
{
	0 (%AI5_End_NonPrinting--) discard
} bind def
/Ln /pop load def
/Ap
/pop load def
/Ar
{
	72 exch div
	0 dtransform dup mul exch dup mul add sqrt
	dup 1 lt
	{
		pop 1
	} if
	setflat
} def
/Mb
{
	q
} def
/Md
{
} def
/MB
{
	Q
} def
/nc 3 dict def
nc begin
/setgray
{
	pop
} bind def
/setcmykcolor
{
	4 npop
} bind def
/setcustomcolor
{
	2 npop
} bind def
currentdict readonly pop
end
end
setpacking
%%EndResource
%%EndProlog
%%BeginSetup
Adobe_level2_AI5 /initialize get exec
Adobe_ColorImage_AI6 /initialize get exec
Adobe_Illustrator_AI5 /initialize get exec
%AI5_Begin_NonPrinting
Np
%AI3_BeginPattern: (Arrow1.2.out/in)
(Arrow1.2.out/in) 1 1 39.4039 39.4039 [
%AI3_Tile
(0 O 0 R  0.75 0.75 0.375 0 k
 0.75 0.75 0.375 0 K
) @
(
%AI6_BeginPatternLayer
800 Ar
1 J 0 j 1 w 4 M []0 d
%AI3_Note:
0 D
0 XR
33.9039 15.6187 m
39.4247 20.202 L
39.4247 20.202 L
33.8869 24.6252 L
S
39.2997 20.202 m
24.5706 20.202 l
20.4039 20.4792 20.4039 16.8125 v
20.4039 13.1458 20.4039 12.5625 y
S
%AI6_EndPatternLayer
) &
] E
%AI3_EndPattern
%AI3_BeginPattern: (Arrow1.2.side)
(Arrow1.2.side) 1 1 39.404 39.4039 [
%AI3_Tile
(0 O 0 R  0.75 0.75 0.375 0 k
 0.75 0.75 0.375 0 K
) @
(
%AI6_BeginPatternLayer
800 Ar
1 J 0 j 1 w 4 M []0 d
%AI3_Note:
0 D
0 XR
20.202 20.202 m
39.404 20.202 l
S
33.904 15.6187 m
39.4248 20.202 L
39.4248 20.202 L
33.887 24.6252 L
S
%AI6_EndPatternLayer
) &
] E
%AI3_EndPattern
%AI3_BeginPattern: (Bricks)
(Bricks) 1.6 1.6 73.6 73.6 [
%AI3_Tile
(0 O 0 R  0.3 0.85 0.85 0 k
 0.3 0.85 0.85 0 K
) @
(
%AI6_BeginPatternLayer
800 Ar
0 J 0 j 1 w 4 M []0 d
%AI3_Note:
0 D
0 XR
1.6 1.6 m
1.6 73.6 L
73.6 73.6 L
73.6 1.6 L
1.6 1.6 L
f
%AI6_EndPatternLayer
) &
(0 O 0 R  1 g
 1 G
) @
(
%AI6_BeginPatternLayer
800 Ar
0 J 0 j 0.3 w 4 M []0 d
%AI3_Note:
0 D
0 XR
1.6 70.01 m
73.6 70.01 l
S
1.6 62.809 m
73.6 62.809 L
S
1.6 55.609 m
73.6 55.609 L
S
1.6 48.408 m
73.6 48.408 L
S
1.6 41.208 m
73.6 41.208 L
S
1.6 34.007 m
73.6 34.007 L
S
1.6 26.807 m
73.6 26.807 L
S
1.6 19.606 m
73.6 19.606 L
S
1.6 12.406 m
73.6 12.406 L
S
1.6 5.206 m
73.6 5.206 L
S
70.01 70.01 m
70.01 62.822 l
S
55.61 70.01 m
55.61 62.822 L
S
41.21 70.01 m
41.21 62.822 L
S
26.81 70.01 m
26.81 62.822 L
S
12.41 70.01 m
12.41 62.822 L
S
70.01 55.572 m
70.01 48.385 l
S
55.61 55.572 m
55.61 48.385 L
S
41.21 55.572 m
41.21 48.385 L
S
26.81 55.572 m
26.81 48.385 L
S
12.41 55.572 m
12.41 48.385 L
S
70.01 41.197 m
70.01 34.01 l
S
55.61 41.197 m
55.61 34.01 L
S
41.21 41.197 m
41.21 34.01 L
S
26.81 41.197 m
26.81 34.01 L
S
12.41 41.197 m
12.41 34.01 L
S
70.01 26.822 m
70.01 19.635 l
S
55.61 26.822 m
55.61 19.635 L
S
41.21 26.822 m
41.21 19.635 L
S
26.81 26.822 m
26.81 19.635 L
S
12.41 26.822 m
12.41 19.635 L
S
70.01 12.385 m
70.01 5.197 l
S
55.61 12.385 m
55.61 5.197 L
S
41.21 12.385 m
41.21 5.197 L
S
26.81 12.385 m
26.81 5.197 L
S
12.41 12.385 m
12.41 5.197 L
S
62.797 5.197 m
62.797 1.6 L
S
48.397 5.197 m
48.397 1.6 L
S
33.997 5.197 m
33.997 1.6 L
S
19.597 5.197 m
19.597 1.6 L
S
5.197 5.197 m
5.197 1.6 l
S
62.797 19.635 m
62.797 12.447 L
S
48.397 19.635 m
48.397 12.447 L
S
33.997 19.635 m
33.997 12.447 L
S
19.597 19.635 m
19.597 12.447 L
S
5.197 19.635 m
5.197 12.447 l
S
62.797 34.01 m
62.797 26.822 L
S
48.397 34.01 m
48.397 26.822 L
S
19.597 34.01 m
19.597 26.822 L
S
5.197 34.01 m
5.197 26.822 l
S
62.797 48.385 m
62.797 41.197 L
S
48.397 48.385 m
48.397 41.197 L
S
33.997 48.385 m
33.997 41.197 L
S
19.597 48.385 m
19.597 41.197 L
S
5.197 48.385 m
5.197 41.197 l
S
62.797 62.822 m
62.797 55.635 L
S
48.397 62.822 m
48.397 55.635 L
S
33.997 62.822 m
33.997 55.635 L
S
19.597 62.822 m
19.597 55.635 L
S
5.197 62.822 m
5.197 55.635 l
S
62.797 73.5589 m
62.797 70.072 L
S
48.397 73.5589 m
48.397 70.072 L
S
33.997 73.5589 m
33.997 70.072 L
S
19.597 73.5589 m
19.597 70.072 L
S
5.197 73.5589 m
5.197 70.072 l
S
33.997 34.01 m
33.997 26.822 L
S
%AI6_EndPatternLayer
) &
] E
%AI3_EndPattern
%AI3_BeginPattern: (Checks)
(Checks) 1 1 31.3995 31.3995 [
%AI3_Tile
(0 O 0 R  0 0.9 1 0 k
 0 0.9 1 0 K
) @
(
%AI6_BeginPatternLayer
800 Ar
0 J 0 j 1 w 4 M []0 d
%AI3_Note:
0 D
1 XR
19.9995 4.8 m
27.5995 4.8 L
27.5995 12.3995 L
19.9995 12.3995 L
19.9995 4.8 L
f
31.3995 27.5995 m
31.3995 31.3995 L
27.5995 31.3995 L
27.5995 27.5995 L
31.3995 27.5995 L
f
19.9995 27.5995 m
19.9995 19.9995 L
27.5995 19.9995 L
27.5995 27.5995 L
19.9995 27.5995 L
f
0 XR
12.3995 12.3995 m
19.9995 12.3995 L
19.9995 19.9995 L
12.3995 19.9995 L
12.3995 12.3995 L
f
1 XR
12.3995 27.5995 m
4.8 27.5995 L
4.8 19.9995 L
12.3995 19.9995 L
12.3995 27.5995 L
f
4.8 12.3995 m
4.8 4.8 L
12.3995 4.8 L
12.3995 12.3995 L
4.8 12.3995 L
f
19.9995 27.5995 m
19.9995 31.3995 L
12.3995 31.3995 L
12.3995 27.5995 L
19.9995 27.5995 L
f
12.3995 4.8 m
12.3995 1 L
19.9995 1 L
19.9995 4.8 L
12.3995 4.8 L
f
4.8 19.9995 m
1 19.9995 L
1 12.3995 L
4.8 12.3995 L
4.8 19.9995 L
f
27.5995 19.9995 m
27.5995 12.3995 L
31.3995 12.3995 L
31.3995 19.9995 L
27.5995 19.9995 L
f
4.8 31.3995 m
1 31.3995 L
1 27.5995 L
4.8 27.5995 L
4.8 31.3995 L
f
27.5995 1 m
31.3995 1 L
31.3995 4.8 L
27.5995 4.8 L
27.5995 1 L
f
1 4.8 m
1 1 L
4.8 1 L
4.8 4.8 L
1 4.8 L
f
%AI6_EndPatternLayer
) &
(0 O 0 R  0 0.05 0.2 0 k
 0 0.05 0.2 0 K
) @
(
%AI6_BeginPatternLayer
800 Ar
0 J 0 j 1 w 4 M []0 d
%AI3_Note:
0 D
1 XR
4.8 4.8 m
4.8 1 L
12.3995 1 L
12.3995 4.8 L
4.8 4.8 L
f
4.8 12.3995 m
1 12.3995 L
1 4.8 L
4.8 4.8 L
4.8 12.3995 L
f
19.9995 4.8 m
19.9995 1 L
27.5995 1 L
27.5995 4.8 L
19.9995 4.8 L
f
12.3995 12.3995 m
12.3995 4.8 L
19.9995 4.8 L
19.9995 12.3995 L
12.3995 12.3995 L
f
27.5995 4.8 m
31.3995 4.8 L
31.3995 12.3995 L
27.5995 12.3995 L
27.5995 4.8 L
f
12.3995 19.9995 m
4.8 19.9995 L
4.8 12.3995 L
12.3995 12.3995 L
12.3995 19.9995 L
f
4.8 27.5995 m
1 27.5995 L
1 19.9995 L
4.8 19.9995 L
4.8 27.5995 L
f
19.9995 12.3995 m
27.5995 12.3995 L
27.5995 19.9995 L
19.9995 19.9995 L
19.9995 12.3995 L
f
19.9995 19.9995 m
19.9995 27.5995 L
12.3995 27.5995 L
12.3995 19.9995 L
19.9995 19.9995 L
f
27.5995 19.9995 m
31.3995 19.9995 L
31.3995 27.5995 L
27.5995 27.5995 L
27.5995 19.9995 L
f
12.3995 27.5995 m
12.3995 31.3995 L
4.8 31.3995 L
4.8 27.5995 L
12.3995 27.5995 L
f
27.5995 27.5995 m
27.5995 31.3995 L
19.9995 31.3995 L
19.9995 27.5995 L
27.5995 27.5995 L
f
%AI6_EndPatternLayer
) &
] E
%AI3_EndPattern
%AI3_BeginPattern: (Confetti)
(Confetti) 4.85 3.617 76.85 75.617 [
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47.6001 182.8999 L
42.1001 178.6001 36.1001 175.5 30.7998 171.2002 C
30.7998 171.6001 L
32.2002 172.7002 33.1001 174.2002 34.3999 175 C
35.2002 175.7998 36.7998 176.7002 37.7002 177.7998 C
37.7002 177.7002 L
38.3999 178.1001 39.3999 179.6001 40.2998 180 C
40.3999 179.8999 L
42 181.3999 44.8999 182.5 46.6001 184.1001 C
47.7002 184.3999 48.6001 185.2998 49.6001 185.6001 C
49.5 186.1001 50.1001 186.2998 50.3999 186.2002 C
50.2998 186.3999 L
52.3999 187.7998 55.2998 188.7998 56.8999 190 C
57.2002 189.7002 57.7002 189.8999 58 190.2002 C
58.5 190.5 59.5 191.1001 60.3999 191 C
61.3999 192.6001 63.5 192.3999 64.8999 193.1001 C
64.8999 193.2998 L
65.6001 193.2998 L
65.6001 193.6001 L
67.8999 194.1001 69.8999 194.8999 72.2002 195.3999 C
72.6001 195.7002 L
77.1001 196.3999 81.1001 197.7998 85.3999 198.3999 C
85.8999 198.3999 86.2998 198 86.6001 198.6001 C
86.6001 198.5 L
90.6001 198.7998 94 199.2998 98.2002 199.3999 C
99.2002 199 100.7002 199.2998 101.7998 199.2002 C
f
151.8999 193.7002 m
151.6001 192.6001 152.5 193.2998 152.5 192.5 C
152.2998 190.7002 152.3999 189.3999 153.6001 187.8999 C
153.7998 187.7002 L
154 187.5 155.3999 187.6001 155.8999 187.6001 C
161.2002 188.8999 167 187.8999 171.7002 188.5 C
171.7002 188.3999 L
173.6001 188 176.5 189.2002 178.1001 187.6001 C
178.2998 187.7998 L
179 186.8999 179.5 185.7998 179 184.7998 C
179.2998 183 179.2002 181.8999 179.2002 180.2002 C
179.2998 179.6001 178.7002 178.5 179.2998 178 C
179.6001 177.5 178.6001 177.1001 179.2998 176.6001 C
178.7002 175.6001 178.7998 174.5 179.2002 173.2998 C
179 173.2998 L
178.7002 171 179 169 178.8999 166.2998 C
178.5 166 177.7998 165 176.8999 165 C
176 165.2998 174.5 165.2002 174.3999 166.2998 C
174.5 167.1001 174.1001 168.2002 173.8999 168.7002 C
173.7998 170.5 174 172.6001 173.7998 174.6001 C
173.8999 174.6001 L
173.8999 181.2002 L
170.7002 183.7998 166.5 182.2998 163 182.5 C
161.2998 180.5 160.6001 176.3999 161.2998 173.6001 C
161.6001 173.5 L
160.5 173.1001 161.7998 172.7002 161.6001 172 C
162 169.7998 161.7002 168.7998 161.6001 166.3999 C
160.8999 165.7002 160.2002 165.1001 159.2002 164.6001 C
158.2002 164.7998 156.7002 165.3999 156.1001 166.7002 C
156.2998 167.3999 155.8999 168.1001 155.5 168.5 C
155.6001 170.1001 155.3999 172.1001 156 173.6001 C
155.5 174.2002 156.6001 174.8999 155.7998 175.2002 C
156.1001 175.7002 L
156.1001 180.3999 L
155.2998 181.2998 155.3999 182.3999 154 182.8999 C
152.5 183.5 151.1001 182.7002 149.5 182.6001 C
147.6001 182.7002 145.8999 183.3999 144.3999 182.2002 C
141.6001 179.5 142.8999 174.6001 143.2998 171.6001 C
143.2002 169.5 143.7998 167 142.2002 165.3999 C
141.3999 164.7002 140.2998 164.5 139.3999 164.6001 C
138 165.2002 139.6001 166.6001 138.2002 167.3999 C
138.2002 167.7998 139 168.2002 138.2002 168.5 C
138.3999 170.7998 138.5 173.3999 138 175.3999 C
138.2002 175.3999 L
138.2998 176.2998 138.2002 176.2002 138.1001 177.1001 C
138 177.1001 L
138.6001 178 137.2998 178.6001 137.7998 179.7998 C
137.3999 179.8999 L
137.5 179.8999 L
137.2002 180.6001 137.2002 181.5 136.7002 182.2002 C
133.5 181.7002 127 184.1001 125.5 179.2002 C
125.7002 177.8999 125.2002 175.6001 125.5 173.7998 C
125.3999 171.2002 125.2998 167.8999 125.2002 166.2002 C
125.2998 166.2998 L
125 166.6001 125.6001 164.7998 124.3999 165 C
123.5 164.5 121.8999 164.5 121 165 C
120.3999 166.1001 120.7998 168 120 169 C
120.2998 172.6001 119.3999 175.6001 120.3999 178.8999 C
120 178.7998 L
120.2002 179.7002 119.7998 180.2002 120.5 181.2002 C
120.5 183.3999 120.5 183.6001 120.5 186 C
121 186.6001 121.3999 186.2002 121.7998 187.1001 C
121.7998 187 L
122.5 188.5 123.8999 187 125.2002 187.1001 C
131.2002 187.8999 136.7002 187.2998 142.1001 187.8999 C
143.5 188.2002 144.8999 187.6001 146.2998 188.2998 C
146.3999 189.2002 146.6001 190.1001 146.8999 190.6001 C
146.7002 190.6001 147.2002 192.2002 147 192.6001 C
147.3999 193.3999 147.8999 194.2002 148.8999 194.7998 C
150.1001 195.2002 151.2998 194.1001 151.8999 193.7002 C
f
87.7002 185.2998 m
88.2998 184.7002 88.2998 184 88.1001 183.3999 C
87.6001 181.1001 L
87.7998 180.7998 87.6001 180 87.7002 179.6001 C
87.6001 179.7998 L
87 178.3999 87.2002 177.1001 87 175.7998 C
86.7002 174.8999 87.2998 174 86.6001 173.2002 C
86.8999 171.7998 86.6001 170.5 86.8999 169.3999 C
87.2998 168.8999 87 167.5 87.5 166.8999 C
87.7998 166.5 88.7998 166.5 88.8999 167.3999 C
88.8999 168.6001 L
89.1001 168.5 89.2002 168.7002 89.2998 168.7998 C
89 169.1001 L
89.6001 169.1001 88.8999 170 89.2002 170.3999 C
88.7998 170.7998 L
89.7998 170.7998 88.8999 171.6001 89.2998 172.1001 C
89 172.2998 L
89.7002 172.7002 89.2002 173.5 89.8999 173.8999 C
89.6001 174.5 L
89.7998 174.3999 89.7998 174.5 89.8999 174.6001 C
89.3999 176 90.6001 177.8999 90.7002 179.2998 C
91.1001 180.8999 92.2998 183.1001 92.5 184.2998 C
93.1001 185 L
93.5 184.7002 L
93.2998 182 92.8999 178.7998 92.8999 176.2002 C
92.3999 174.5 92.7002 173.3999 93.1001 172 C
93.3999 172 L
93 171.6001 L
93.8999 171.1001 93.5 172 94.1001 172.2998 C
93.3999 173.1001 95.1001 173.3999 94.3999 174.2002 C
94.3999 174.1001 94.5 174.1001 94.6001 174 C
94.5 174.7002 95.7002 175.7002 95.2998 177 C
96.3999 177.1001 94.8999 178.5 96.2002 178.6001 C
96.3999 179.8999 L
96.6001 179.6001 L
96.7002 181.1001 97.2998 181.7998 98 183.1001 C
97.6001 183.7002 98.5 184 98.5 184.3999 C
99 184.3999 L
99.1001 182.5 98.8999 180.8999 98.8999 179.2998 C
98.2998 177.5 98.7998 174.8999 98.2002 173.2002 C
98.5 172.6001 98.7998 172.2998 99.6001 172.2998 C
99.8999 173.5 100.5 174.2998 100.3999 175.2998 C
101.2998 175.8999 101.2002 177.6001 101.5 178.2998 C
101.7002 178.5 102 178.2998 102.1001 178.6001 C
101.7998 179.3999 102.7002 180.7002 103.2002 181.3999 C
102.8999 182.3999 103.7998 182.5 103.7998 183.2002 C
103.7998 181.7002 104.7998 180.6001 103.7998 179.3999 C
104.1001 177.2998 103.2998 175.7002 104.2998 173.7998 C
104.6001 174 105 174.1001 104.8999 174.6001 C
104.8999 174.3999 105.2002 174.3999 105.2002 174.6001 C
105.3999 175 105.2998 175.6001 105.3999 176 C
105.5 175.8999 L
105.8999 176.2002 105.7002 177.2998 106 178 C
106.2002 177.8999 106.3999 178.1001 106.2998 178.2998 C
106.3999 178.6001 107.1001 179.2002 107 179.5 C
107.2002 179.3999 L
107.2002 180.1001 108.2998 180.1001 108.2002 181.1001 C
108.6001 181.7002 L
108.7998 181.3999 109 180.7002 109.3999 180.1001 C
108.7002 180 109.3999 179.2998 108.7998 179.2998 C
109 177.2998 107.6001 175.1001 108.7002 173.7998 C
108.3999 173.5 108.8999 173.2002 109.1001 173 C
109.7998 173.7002 110.6001 175 111.1001 176 C
111 176.7002 111.7998 177.2002 111.7002 177.7998 C
112.2998 177.7998 L
112.6001 179.5 L
112.6001 179.2998 L
112.8999 179.3999 113 180.1001 113.3999 180.6001 C
113.3999 180.5 L
113.7998 180.8999 114.5 180.2002 114.2002 179.7998 C
113.6001 178.3999 113.5 176.7998 113 175.2998 C
113.1001 174.3999 113.1001 173.6001 112.6001 172.8999 C
113.3999 172.2002 L
113.7002 172.5 114.2002 172.8999 113.8999 173.2998 C
115 173.3999 114.5 174.1001 115.2998 174.7998 C
115.3999 175.2002 116.2002 175.6001 116.2002 176.3999 C
116.5 172.2998 115.8999 168.2998 116.2998 164 C
116 163.7998 L
113.2998 165.8999 109 165.7002 105.5 165.7002 C
98 163.1001 91.5 155.5 82.8999 159.1001 C
80.2002 161.8999 77.6001 167.5 72.5 165.7002 C
65.2998 163.8999 58.5 157.2002 50.8999 154.7002 C
46.8999 153.7998 43.2998 151.8999 39.5 151.7998 C
35.6001 152.5 30.3999 152.8999 28 149.6001 C
27.6001 148 26.5 145.8999 26.7998 144.1001 C
25.8999 141.5 24.3999 139.5 22 139.1001 C
17.2002 137.2002 13.6001 133.3999 9.2002 130.7002 C
9 131 9.2998 131.7002 8.7998 131.8999 C
9.5 132.7998 L
9.7998 133 9.5 134.2002 10.3999 134.3999 C
10.1001 134.7998 L
10.8999 135 12.2998 134.7002 12.6001 135.7998 C
12.5 138.1001 L
12.6001 138.1001 L
12.6001 138.3999 L
13 138.3999 L
12.5 139 13.1001 138.2002 13.2002 139.1001 C
13.5 139.7998 12.5 140.7002 13.7002 141 C
14.2998 140.6001 14.7002 140.7998 15.5 141 C
16.1001 141.3999 15.7998 142.8999 15.7002 143.2998 C
14.7002 144 16 144.2998 16.2998 145.1001 C
17 144.7998 16.8999 143.7002 17.7998 144.2002 C
17.7998 144.1001 17.7002 143.8999 17.8999 143.8999 C
18.1001 144.2002 18.7998 144.5 18.7002 145.2002 C
18.5 146.3999 18.2002 147.8999 19.1001 148.7002 C
19.6001 147.8999 20.5 147.7002 20.6001 146.8999 C
21 146.8999 L
21.2002 149 L
21.3999 148.8999 L
21.3999 150.1001 21 149.3999 21.7998 150.5 C
21.3999 151.1001 L
21.7002 150.8999 21.7002 151.2998 21.7998 151.3999 C
21.6001 151.7998 21.6001 152.2002 21.7002 152.6001 C
21.7998 151.2998 22.7998 151.6001 23.2002 150.5 C
23.6001 150.3999 24.5 150.3999 24.5 151.2002 C
25.2002 151.8999 24.1001 152.7002 24.5 153.6001 C
24.1001 154 L
24.2002 154 L
24.3999 155.8999 L
25 155.6001 25.7998 153.1001 27 153.7002 C
27.2998 154.2998 27.1001 155.2002 27.3999 155.7998 C
26.8999 156.7002 27.2998 157.5 27.1001 158.7998 C
27.3999 158.2998 L
27.6001 158.5 L
28 158 L
27.7998 157.8999 L
29 156.5 L
28.8999 156.3999 L
29.3999 155.8999 L
30.2998 157 29.7002 159.3999 29.8999 160.8999 C
31.2998 159 L
31.3999 159.1001 L
31.2002 158.5 32.3999 158.2002 32.6001 157.7002 C
33.3999 158.2998 L
32.8999 158.7998 33.2998 161.1001 32.5 161.6001 C
32.8999 162.5 32.1001 162.6001 32 163.3999 C
32.2002 163.2998 L
32.3999 163.5 32.2002 163.8999 32.2998 164.2002 C
32 164.2002 L
32 164.8999 L
32.3999 164.2998 L
32.6001 164.7998 L
32.6001 163.2998 33.8999 163.7002 34.1001 162.3999 C
34.2002 162.5 L
34.5 161.1001 35.3999 160.3999 35.8999 159.1001 C
35.8999 158.5 36.2998 157.8999 36.7998 157.7998 C
37.8999 158.3999 37.2998 159.7998 37.2998 160.8999 C
37.2998 161.5 L
37.2002 161.3999 L
36.6001 161.7998 37.5 163.6001 36.3999 164 C
36.3999 167.2998 L
36.6001 166.7998 36.5 166.6001 36.7002 166.1001 C
36.8999 166.1001 36.7998 166.2998 36.7998 166.3999 C
38.7998 163.8999 39.2002 160.8999 42 159.1001 C
42.5 160.2002 41.7998 162.3999 41.3999 163.7998 C
41.2002 163.7002 41.2998 163.3999 41.2998 163.2002 C
41.7002 164.7002 40.5 165.5 40.6001 167 C
40.1001 167.2002 40.5 167.5 40.6001 167.7998 C
40 168.2002 40 169.2998 40.1001 169.8999 C
41.3999 170.3999 41 168.2002 41.8999 168.1001 C
42 167.2998 42.3999 166.7998 43 166.3999 C
43.2998 166.2002 42.3999 165.2002 43.3999 165.3999 C
43.1001 165 43.7998 164.7998 43.7998 164.5 C
44 164.5 L
44.2002 163.7002 45.5 161.7998 46.2002 161.5 C
46.2002 160.8999 46.7998 160.6001 47.2998 160.2998 C
47.8999 160.7998 47.5 161.7998 47.7998 162.1001 C
47.2002 162.3999 47.7998 162.7998 47.3999 163.2002 C
47.5 163.2002 L
47.2002 164.1001 46.6001 164.2998 47 165.3999 C
46 165.2002 47 166.2998 46.2002 166.7002 C
46.2998 167.3999 45.3999 168.8999 45 169.7002 C
44.7002 170.7998 45.2998 172.1001 44.8999 173 C
45.2002 173.1001 45.3999 173.3999 45.6001 173.6001 C
45.7998 173 L
46.1001 173.2998 L
45.7998 172.2998 47.1001 172 46.7998 171 C
47.5 170.1001 47.7002 169.3999 48.5 168.1001 C
48.1001 167.5 49.3999 167.2998 49.2998 167 C
49.3999 167.2002 49.3999 165.3999 49.8999 166.1001 C
50.7002 165.1001 50.7998 163.2002 52.1001 162.7002 C
52.6001 162.7002 52.6001 163.7002 52.6001 164 C
51.6001 165.5 52.3999 167.7002 51.5 169.3999 C
51.3999 170.6001 50.7002 172.2998 51.1001 173.2002 C
50.8999 173.3999 L
51.2998 173.8999 50.6001 175.1001 51 175.8999 C
52.6001 175.8999 52.6001 173.7002 53.7998 172.6001 C
53.7998 171.7002 53.8999 170.1001 55 169.2998 C
54.6001 169 55 168.7002 55.1001 168.3999 C
55.3999 168.2998 55.2998 167.3999 55.7998 167.2998 C
55.8999 166.8999 56 166.1001 56.8999 166.1001 C
57.1001 166.2998 57.7002 166.2998 57.5 166.7998 C
57.6001 166.7998 57.7002 166.7002 Y
58.1001 167 57.7998 167.2998 57.6001 167.5 C
57.7002 167.5 L
57.6001 167.8999 L
57.7002 167.8999 57.7998 167.7998 Y
57.7998 168.5 L
57.5 168.5 L
57.6001 168.1001 57.8999 169.2002 57.5 169.2998 C
57.5 169.7002 57.3999 170 57.2002 170.2998 C
57.3999 170.2002 L
57.1001 170.7002 57.5 171.1001 56.8999 171.6001 C
57 171.6001 L
57.5 173.3999 55.6001 175.2002 56.6001 177.1001 C
56.6001 177.8999 56.2002 178 56.5 178.7998 C
58.2002 179.5 57.7002 177.1001 58.2998 176.2998 C
58.3999 176.3999 L
58.7002 175.8999 58.7998 175 59.2002 174.7998 C
59.6001 174.2002 58.2002 173.5 59.3999 173 C
59.5 173.2002 L
59.5 172.6001 60.7002 171.7998 60.5 171 C
60.8999 170.8999 60.7002 170.2002 61 169.8999 C
61.7998 169.1001 L
62.2998 169.2002 62.2002 169.7002 62.2998 170 C
61.8999 170.5 62.3999 170.8999 62.2002 171.5 C
62.2998 171.5 L
62.3999 172.1001 62.1001 173.1001 62.3999 173.8999 C
62 174.2002 L
62.8999 176.2002 61.7998 178.3999 62.2998 180.6001 C
62.7998 180.1001 62.8999 181.1001 63.3999 181 C
63.7002 179.3999 64.2002 178.2998 64.2998 176.6001 C
64.3999 176.7998 L
64.2002 175.6001 65.2002 174.2998 65.2998 172.8999 C
65.6001 172.8999 L
65.5 172.2998 65.7002 171.8999 65.8999 171.3999 C
66.2998 171.1001 67 171.6001 66.7002 172.1001 C
67 171.7998 L
67.2998 172.8999 67.2998 175.1001 67 176.2998 C
67.3999 177.3999 67.2002 178.7998 67.1001 180.1001 C
67.2002 180.1001 67.3999 180.1001 67.3999 180.2002 C
67.1001 180.5 67.8999 180.2998 67.7002 180.7998 C
67.7002 181.3999 L
67.8999 181.3999 68 181.7002 68.2002 181.7998 C
68.2002 182 67.6001 182.3999 68.2002 182.3999 C
69.1001 182 68.7002 180.5 69.5 179.5 C
69.3999 177 70.1001 175.6001 70.2002 173.2002 C
70.2998 173.1001 70.3999 173.2002 70.3999 173.2998 C
70.2998 173.2998 70.6001 172.7998 70.8999 172.6001 C
71.7002 172.6001 71.1001 172.6001 71.6001 172.3999 C
72.1001 173 72.1001 173.5 72.1001 174.2002 C
72.3999 174 L
72.6001 174.2002 L
72.2002 175 72.7998 176.3999 72.6001 177 C
73.1001 178.2998 72.7998 179.1001 73.6001 180.2002 C
73.2002 180.2002 L
73.6001 181 73.2002 182.5 74.2002 183 C
74.2002 183.7998 L
74.5 184.2002 74.8999 183.6001 75.2002 184 C
75.1001 182.2002 75.8999 180.2998 75.7002 178.3999 C
75.7002 178.6001 75.7998 178.7998 75.6001 178.8999 C
75 177.2002 76.1001 175.7002 76.1001 174 C
76.3999 173.7998 76.7002 173.6001 76.7998 173.2002 C
77.5 173.3999 77.2998 173.8999 77.5 174.6001 C
77.7002 174.6001 77.8999 174.5 78 174.7002 C
77.5 174.7998 77.8999 175.6001 78.1001 175.8999 C
77.8999 176 77.8999 176.2998 78.1001 176.3999 C
78.3999 177.3999 78.6001 178.2998 78.5 179.3999 C
78.6001 179.2998 L
79.2998 180.7002 79 181.7002 79.7998 182.7998 C
80 183.6001 80.7002 184.2998 80.7998 184.8999 C
81.1001 181 80.6001 176.7002 81 172.8999 C
81.1001 173 81.1001 173.1001 81.2002 173 C
81.1001 172.6001 81.2002 172.5 81.2002 172 C
81.1001 172.1001 81 172.1001 V
80.5 171.7002 81.3999 171.7002 81.2002 171.3999 C
81.1001 170.8999 81.3999 170.3999 81.5 169.8999 C
81.7998 169.7998 L
81.3999 169.6001 L
82.2002 168.7002 L
82 168.5 L
82.1001 168.3999 82.1001 168.2002 82.2998 168.2002 C
83.1001 168.6001 82.2998 169 82.8999 169.2998 C
83.2002 170.7998 83.3999 171.3999 83.5 172.6001 C
83.7998 173.6001 84.1001 174.3999 84.1001 175.3999 C
83.7002 176.1001 84.8999 176.5 84.5 177.3999 C
84.7998 178.7998 85.7998 180 85.7002 181.3999 C
85.7998 181.2998 L
86.1001 181.7002 86.2002 182.3999 86.2998 182.7998 C
86.5 183.3999 87.2998 184.1001 87.1001 185.2998 C
87.3999 184.8999 L
87.7002 185.2998 L
f
106.2002 162.7002 m
106.2998 159.5 105.3999 156.8999 106.7998 154.2998 C
108.5 153.1001 107.7002 155.6001 108.3999 156 C
108 156 L
108.3999 156.5 L
108.7002 157.2002 107.5 158.2002 108.2002 159 C
107.8999 160.7998 108.1001 161.7998 109.6001 162.7998 C
109.8999 159.7002 110.3999 158 110.5 154.7002 C
110.7998 154.7002 L
110.7002 154.1001 110.7002 153.2002 111.2002 152.8999 C
111.7998 152.7002 111.1001 151.8999 111.7998 151.8999 C
112.2002 152.2998 L
112 152.2998 112.1001 152.5 112.1001 152.6001 C
112.2002 152.5 L
112.2998 152.7998 113.1001 153.1001 112.3999 153.5 C
112.7998 153.5 L
112.7002 155.2002 113.5 157 113.2998 158.7998 C
113.7998 160.6001 L
113.3999 160.6001 L
114 161.2002 L
114.3999 160.3999 115.2998 160.7002 115.3999 160 C
115.7998 159.5 116.2998 158.7002 116.2998 158 C
116 156.7002 117 155.2002 116.2002 154 C
115.8999 150.7002 116.7998 148.8999 116 146 C
111.1001 148.7998 106 147.3999 101.2998 145.1001 C
96.2002 143.1001 92.1001 139.5 86.8999 140.3999 C
84.3999 140.2002 82.6001 141.8999 80.6001 143.2002 C
79.6001 144.3999 78.2998 146.7002 76.2002 146 C
72.1001 145.3999 70.6001 141.3999 67.6001 139.3999 C
67.3999 139 L
65.7998 136.8999 62.7998 135.2998 60.7002 134.2002 C
60.6001 134.2998 L
58.7002 133.2002 55.6001 132.1001 53.2998 131 C
52.6001 130.2998 50.2998 129.6001 49.6001 128.2998 C
47.8999 126.7002 46.7002 123.7998 47.3999 121.6001 C
46.5 119.6001 48.7002 118.8999 47.2998 117.2002 C
45.7002 113.7002 40.8999 112 38.2998 109.7002 C
36.1001 108.7998 34.7998 107.2998 33.7002 105.7002 C
33.8999 106.7002 32.7998 107.7002 33.7002 108.3999 C
33.7002 109 L
33.7998 109 34 109 34.1001 108.7998 C
33.7998 110.7998 36.3999 109.3999 35.7998 111.5 C
35.8999 111.5 L
35.8999 112.8999 L
36.8999 113.2002 38 113.1001 37.6001 114.3999 C
36.7002 114.6001 37.2998 115.8999 36.3999 116 C
36.2002 116.5 36.7002 116.6001 36.7998 116.8999 C
37.6001 117.2998 39.1001 115.7002 39.1001 117.2002 C
40 117.5 38.8999 118 39.1001 118.8999 C
38.7998 120.1001 L
39 119.8999 L
39.1001 120.5 L
40.1001 120.2998 40.7002 118.2998 41.6001 119.3999 C
41.3999 120 L
41.8999 120.1001 41.5 120.3999 41.7998 120.6001 C
40.8999 121 41.5 123.2998 40.8999 124.1001 C
40.7002 124.1001 L
40.7002 123.8999 41.3999 124.2998 41.2002 124.7002 C
41.8999 124.6001 42.6001 122.6001 43.6001 122.7998 C
42.7998 122.7998 44 124.3999 43.1001 124.7998 C
43 125 43.2002 125 43.2998 125.2002 C
43.2002 125.3999 43 125.2002 42.7998 125.2998 C
43.2002 126.7002 42.1001 127.2998 42.7998 128.6001 C
43.1001 128.6001 43.2998 128.7002 43.3999 128.8999 C
43.7002 128.6001 L
43.8999 129.1001 43.8999 128.7002 44.2998 128.6001 C
44.6001 128 44.2998 127.1001 45.2002 126.7998 C
45.1001 126.2998 45.7002 126.2002 46 126.1001 C
46.6001 126.1001 46.2998 126.7998 46.7002 127.1001 C
46.6001 127.5 45.7998 127.7002 46.3999 128 C
46.1001 129 46 130.6001 45.6001 131.3999 C
46.1001 131.6001 L
45.7002 131.8999 45.7002 132.7002 46.1001 133 C
46.7998 133.2998 47.6001 132.1001 48.2002 133.1001 C
48.1001 133.7002 48.3999 134.3999 48.5 134.8999 C
48.5 135.1001 48.3999 134.6001 48.6001 134.6001 C
48.6001 135.2002 49 136 48.3999 136.2998 C
48.5 136.2002 48.6001 136.2002 V
48.7002 136.2998 48.7002 136.3999 48.7002 136.6001 C
49.7002 136.2002 50.2002 135.1001 50.7998 134 C
51.2002 134.2002 L
51.2002 134 51.2998 134 51.3999 133.8999 C
51.8999 134.2002 51.7998 135.1001 52.1001 135.6001 C
51.6001 136.5 52.3999 136.8999 51.5 137.3999 C
52 138.7002 51.5 139.3999 51.5 140.6001 C
52.2002 140.7002 52.7998 140 52.7998 139.2998 C
53.2002 139.3999 L
53.1001 139.1001 53.3999 138.8999 53.2998 138.6001 C
53.6001 138 54.1001 138.7998 54.5 138.3999 C
55.2998 140.2998 54.5 140.7002 54.1001 142.3999 C
54.6001 142.5 54.1001 143.3999 54.7998 143.2998 C
54.7002 143.2002 L
55.5 142.2002 56.2998 141 56.7998 140 C
57.1001 140.2998 57.6001 139.2998 58 140 C
58 141.7002 57.8999 141.2998 58.1001 142.7002 C
58.2002 142.7002 L
57.7998 143.1001 58.5 143.8999 57.7998 144.3999 C
57.8999 144 58.7002 145.3999 58.1001 145.6001 C
58.1001 146 58.7998 145.7998 59 145.7002 C
59.1001 144.7002 60.1001 144.5 60 143.5 C
60.6001 143.2998 60.1001 141.2002 61.3999 142.2998 C
61.8999 143.6001 61.2998 144.7998 61.7002 146.3999 C
61.6001 146.3999 L
61.8999 147.3999 61.7002 148.2998 61.7998 149.7998 C
63.5 148.6001 63.2002 147.2998 64.3999 145.7998 C
65.2002 145.8999 64.8999 146.7002 65.2998 147.1001 C
65.2998 147.5 64.6001 148.2998 65 148.7002 C
64.6001 149 65 149.2998 65.2002 149.6001 C
65.2002 151.2998 L
65.2998 151.2998 65.3999 151.5 65.5 151.6001 C
65.6001 151.7002 65.3999 151.7998 65.2998 151.8999 C
65.5 152.2002 L
65.8999 151.3999 67.2998 150.7998 67 149.6001 C
67.6001 148.8999 67.7002 147.5 68.5 146.6001 C
68.7002 146.6001 68.8999 146.2002 69.1001 146.5 C
69.1001 146.7998 L
69.5 146.5 68.8999 145.8999 69.6001 146.2002 C
69.7002 146.6001 L
69.7998 146.5 L
69.7002 147.5 70.8999 147.8999 70.3999 148.8999 C
70 149.6001 L
70.1001 149.7998 70.6001 149.7002 70.3999 150.1001 C
70 149.6001 70.2998 150.6001 70.1001 150.7002 C
70.2002 150.6001 L
70.2998 150.7002 70.2998 150.7002 70.2998 150.7998 C
69.3999 151.2002 69.8999 152.8999 70.1001 153.7998 C
70.2002 154.1001 70.3999 154.2998 70.2998 154.7002 C
71.3999 154.7002 70.7998 153 71.7998 153 C
72.1001 152 72 150 73.2998 149.5 C
74.1001 150.1001 73.2998 151.2998 74 151.8999 C
73.7002 151.8999 L
74.5 152.5 74 153.7002 74.2002 154.7002 C
74.2998 154.6001 74.3999 154.7998 74.5 154.8999 C
74.5 155.2002 74.2002 155.1001 74.2002 155.3999 C
74.2002 155.7998 74.5 156 74.7998 156.3999 C
76 154.3999 75.2002 152.8999 76.7998 151.2002 C
77.7002 151.6001 77.5 151.8999 78 152.5 C
77.7998 154 77.6001 155.2998 78.2002 157 C
78.3999 156.7998 L
78.6001 157.2002 78.2998 157.6001 78.5 158 C
78.6001 157.2998 79.1001 157.1001 79.2002 156.5 C
79.6001 154.7998 79.6001 152.5 79.8999 150.7002 C
80 150.7998 L
80.7002 150.3999 79.7002 149.3999 80.8999 149.2998 C
81.3999 149.7002 81.2998 150.8999 81.2002 151.2002 C
81.3999 151.2002 81.6001 151.1001 81.7002 151.2998 C
81.3999 151.8999 L
82.2002 151.7002 81.7002 152.7002 81.7998 153.1001 C
82 153.1001 L
81.5 154.2998 82.5 154.8999 82.3999 156.2002 C
82.7002 155.7002 83.8999 154.8999 83.6001 153.6001 C
84.1001 153.1001 L
84.1001 149.5 L
84.5 149.5 L
84.7002 148.7002 84.2002 147.8999 85.1001 147.6001 C
85.2002 147.8999 85.7998 147.8999 85.6001 148.3999 C
85.8999 148.3999 L
86.2998 150.7998 85.6001 153.1001 86.5 155.2998 C
86.3999 155.3999 L
86.6001 155.6001 L
87.2998 154.7002 87.1001 153.7002 87.7998 153.1001 C
87.7998 151.2002 88.5 151.1001 88.3999 149.2998 C
89.2002 149.2998 88.8999 146.6001 90.1001 148.2998 C
90.1001 148.7002 L
90.3999 148.7002 L
90.7998 149.5 90 150.8999 90.7002 151.6001 C
90.5 151.7998 L
90.2998 151.7002 90.3999 151.6001 90.3999 151.3999 C
90 151.8999 90.7002 152.2002 90.7998 152.6001 C
90.5 153.8999 91.2998 155 91.6001 155.8999 C
92.2002 154.6001 92.2998 153.3999 92.3999 152 C
92.5 150.6001 93.1001 149.7002 93.5 148.2998 C
93.6001 148.3999 L
94.1001 147.6001 L
95.1001 148.2002 94.5 148.7002 94.7998 149.5 C
94.6001 150.2998 94.8999 151 94.7002 151.7998 C
94.7998 152.3999 95.3999 151.5 95.2998 152.2998 C
94.7002 152.5 95.3999 152.7998 95.2998 153.1001 C
95.6001 154.3999 96 155.7998 96.3999 157.2002 C
97 155.2002 97.3999 153.2002 97.8999 151.3999 C
98.1001 151.2002 98.5 151.2998 98.7998 151.2998 C
98.7998 152.2002 100.1001 153 99.5 154 C
99.5 155 L
99.6001 154.8999 L
99.6001 156 100.2998 157.2998 100.1001 158.6001 C
100.8999 159.1001 100.2998 159.7002 101 160.2998 C
101 160.3999 101.1001 160.5 101.2002 160.6001 C
102 159.7002 101.3999 158.2998 102.1001 157.3999 C
101.6001 157.1001 101.7998 156.3999 101.7998 155.7998 C
101.7998 155.6001 102 155.6001 102.1001 155.6001 C
102.1001 155.2002 102.2002 154.7998 102.5 154.3999 C
103 154.7998 103.3999 154.6001 103.7002 155.2998 C
103.3999 155.5 L
103.7002 155.5 L
103.7002 157.6001 L
103.7002 157.3999 103.8999 157.3999 104 157.3999 C
103.5 159 104.3999 160.1001 104.5 161.7998 C
104.7002 161.7002 104.8999 161.7998 104.8999 162 C
104.8999 162.3999 L
104.8999 162.2998 105 162.2002 105.1001 162.2002 C
104.6001 163 105.8999 162.7998 106.2002 162.7002 C
f
172 159.6001 m
172.2998 159.7998 L
172.2998 159.7002 L
172.7998 159.7002 173.3999 159.7998 173.7998 159.3999 C
174.1001 159.3999 175.1001 159.7002 175.7002 159.6001 C
176.2998 159.7998 178.2998 160.2998 178 159 C
178.3999 158.7002 178.5 158.2998 178.3999 157.7998 C
178.7998 157.7998 L
179.5 154 179.5 150.3999 179.2998 146.2998 C
178.7998 145.2998 178.7002 143.5 179.2998 142.7002 C
179.5 142.7002 179 142.6001 178.8999 142.3999 C
178.8999 142.1001 179.5 141.6001 178.8999 141.5 C
179.5 140.2002 179.7002 138.6001 178.7998 137.3999 C
177.7002 136.2998 L
173.2002 136.8999 169.6001 135.7998 165.2002 136.2998 C
164.6001 136.6001 163.7998 138.6001 163.7002 139.7002 C
164.8999 141.2998 167.5 141.2998 170.2002 141.2002 C
171.3999 141 172.2998 141.1001 173.5 141.6001 C
173.8999 141.2998 174.2998 141.7998 174.6001 142.1001 C
174.6001 142.2002 L
174.7998 142.2002 L
174.7002 143.2998 175.7002 144.7998 174.1001 145.3999 C
171 146.2002 167.3999 144.7998 164.3999 146.3999 C
164.6001 146.5 164.5 146.7002 164.5 146.8999 C
163.7998 147.2002 164.3999 148.7002 164.2998 149.3999 C
164.7998 149.1001 164.7998 150 165.3999 149.8999 C
165.2002 150 L
167.8999 151.7998 171.2998 149.6001 174.3999 150.5 C
175.5 151 174.5 151.8999 175.6001 152.3999 C
175.2002 152.3999 L
175.5 152.7002 175.5 153.5 175 153.7002 C
172.3999 155.7998 167.7002 153.7002 165.2002 155.5 C
164.7002 156.2998 164.2998 157.3999 164.2002 158.5 C
164.5 158.2998 164.7002 159.2002 165 158.7998 C
166.3999 160.2998 169.2998 159.7002 171.1001 160 C
172 159.6001 L
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135.7002 157.1001 m
135.1001 153.6001 129.7998 154.8999 127.1001 154 C
126.2998 153.7998 124.2998 154 124.7002 152.5 C
123.8999 151.7002 125.1001 151.2998 125 150.3999 C
128.1001 149.2002 131.5 151.2002 133.8999 149.5 C
134.1001 149.2002 136.1001 148.2998 135.2002 147.1001 C
134.6001 147 134.6001 145.8999 133.6001 145.6001 C
130.7002 144.3999 127 146.6001 124.7998 143.5 C
124.2002 142.5 125.3999 141.7002 126 141.3999 C
127 141.2002 127.8999 140.6001 129 141 C
129 140.8999 L
130.6001 140.6001 133.2998 141 134.7998 140 C
134.5 139.3999 135.2998 139.7002 135.3999 139.2998 C
137 137 133.6001 136.7998 132.3999 136 C
129.6001 135.3999 126.2002 135.8999 123 136.1001 C
121.7998 135.8999 120.8999 137.1001 120.6001 138.2002 C
120.6001 139.3999 120.7002 140.5 120.1001 141.7002 C
120 141.6001 L
120.1001 143.7998 119.7998 144.8999 119.7998 147.6001 C
120.2002 147.5 L
120.2002 149.5 L
119.8999 148.8999 L
119.8999 150.3999 120.1001 152.2998 119.8999 153.7998 C
120.5 154.1001 120 154.8999 119.8999 155.3999 C
120.7002 155.2002 119.6001 156.1001 120.5 155.7998 C
119.8999 156.3999 120.7998 157.2998 121.1001 158.3999 C
121.2998 158.2002 L
121.3999 158.5 121.6001 158.7002 121.6001 159.1001 C
121.7002 159 L
122 159.6001 L
126.6001 157.5 132.1001 161 135.7002 157.1001 C
f
49.8999 150.5 m
49.7998 150.6001 L
49.6001 148.6001 46.7998 147.1001 45.6001 145.6001 C
44 146.1001 41.7998 146.1001 40.2998 145.1001 C
40 144.1001 41.6001 144.7002 41.8999 144.2002 C
42.7998 143.8999 43.6001 143.5 44 142.7002 C
43.3999 142.2998 42.2002 142.2998 41.8999 141.7002 C
41.6001 142 L
39 140.8999 L
39.5 139.6001 42 140 41.3999 138.7002 C
40.2998 137.7998 38.8999 137.2998 38 136.2002 C
38.7002 135.7002 39.5 134.8999 39.3999 133.8999 C
39.3999 134 L
38.1001 133.2002 36.7002 132.7998 35.2002 131.7998 C
35.2998 130.8999 36.3999 131 36.6001 130.2002 C
36.2998 128.6001 32.5 128.1001 34.7998 126 C
34.2002 125.7998 34.6001 124.8999 33.7998 124.8999 C
34 124.7998 L
33.2002 123.7998 31.6001 123.6001 32.3999 121.7002 C
32.8999 121.3999 L
32.6001 121.1001 32.5 121.6001 32.2998 121.2002 C
30.6001 120.3999 30.6001 117.7002 30.5 115.8999 C
30 115.2998 30 114.6001 29.5 114 C
29.7998 112.5 28.3999 111.3999 28.8999 110.2002 C
27.8999 111.2998 28.3999 113.5 28.2002 115.3999 C
28 115.3999 28 115.6001 27.7998 115.7002 C
28.2002 115.7002 L
27.8999 116.3999 28 116.5 27.7998 117.2002 C
28 117.1001 L
28.2002 117.6001 28.3999 119.2002 28.2998 120.6001 C
28.6001 120.6001 L
28.6001 121.1001 L
28.2998 121.1001 L
28.6001 121.8999 L
28.7002 121.7998 L
28.8999 123.1001 28.7998 124.1001 28.7998 124.8999 C
29 124.8999 L
29.3999 125.2998 28.6001 125.5 29.2998 125.6001 C
29.7002 126.5 28.7998 127.7002 29.8999 128.2002 C
29.5 128.5 L
29.6001 128.3999 L
30.2002 129.1001 29.7998 130 30.5 130.7002 C
30.1001 131.2002 L
30.6001 131.2002 30.2998 131.8999 30.3999 132.2002 C
30.6001 132.2002 30.7002 132.3999 31 132.6001 C
30.6001 133.5 31.5 134.5 31.6001 135.5 C
31.8999 136.5 31.8999 136.3999 32 137.6001 C
33 137.3999 32.2002 138.7998 32.6001 139.1001 C
31.7998 140 33.7998 140.1001 33.1001 141 C
33.3999 141.2002 33.2998 142.3999 34.2002 142.6001 C
34.2002 143.2998 L
34.2998 143.2002 L
34.7998 143.5 34.3999 144.7998 35.3999 145.1001 C
34.8999 145.3999 35.3999 145.7998 35.3999 146.2002 C
35.5 146.1001 35.5 146 35.6001 146 C
35.5 147.3999 36.7998 148.5 38 149.5 C
38.7002 148.8999 39 150.1001 39.6001 149.3999 C
39.8999 149.5 40.8999 149.1001 41.3999 149.2998 C
44.2998 149.5 47.6001 150.1001 50 151.3999 C
50 151.1001 49.6001 150.7998 49.8999 150.5 C
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159.8999 155.5 151.6001 151.8999 158.2002 150.6001 C
158.7998 150.5 158.8999 149.7998 159.3999 149.5 C
160.1001 149.2002 159.8999 147.3999 159.7998 146.6001 C
159.1001 145.2002 155.6001 144.7998 156.1001 142.2998 C
157 141.7002 158.6001 141.1001 159 139.7002 C
159.6001 139.6001 L
159.6001 138.2002 159.2998 137.2002 158 136.2998 C
155.5 137.1001 152.8999 138.3999 150.6001 139.7998 C
146.2998 140.7998 145.1001 134.8999 140.8999 136.7002 C
140.6001 137.2002 140.3999 137.7002 139.8999 137.8999 C
139.5 140 142.2998 141.2002 143.7998 142.3999 C
143.6001 144 141.7002 144.7002 140.7998 145.8999 C
140.2998 146.5 140 147.6001 140.2002 148.3999 C
140.2998 148.2998 L
140.5 148.3999 140.6001 148.7998 140.3999 148.8999 C
139.8999 149 140.5 149.2998 140.5 149.5 C
140.7998 149.7002 141.1001 149.3999 141 150 C
141.7998 149.7002 141.7998 150.8999 142.2998 151 C
142.6001 151.5 144 152.2998 143.7998 153 C
142.2002 154.6001 139.5 155.5 140.2002 158 C
143 159.7998 145.6001 157 147.7002 156.2002 C
148.1001 155.8999 148.8999 155.5 149.7998 155.5 C
151 156.1001 152.2998 156.3999 153.5 157.3999 C
153.3999 157.6001 L
154.3999 157.6001 154.7998 158.8999 156.3999 158.8999 C
156.8999 159.2998 157.7998 159.1001 158.3999 158.8999 C
158.7998 158.2998 158.7998 158.5 159.5 158.2998 C
f
1 D
149 149.3999 m
147.6001 149.2002 147.7002 148.7002 146.7998 148 C
146.8999 147.1001 147.8999 146.7002 148.6001 146.5 C
149.8999 145.7002 151.2998 146.6001 152.7998 146.6001 C
152.6001 147 153 147.7002 152.8999 147.6001 C
152.7998 148.1001 152.7002 148.7002 152.2002 148.7998 C
151.2998 148.8999 150 149.7002 149 149.3999 C
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184.3999 145 m
184.8999 144.6001 185.2002 143.6001 185.7998 142.8999 C
186.7998 139.8999 189.1001 137.3999 189.2002 134.5 C
189.7002 133.7998 190.2998 132.6001 190.3999 131.5 C
190.7002 131.5 L
190.6001 129.8999 191.5 129.1001 191.5 127.2998 C
192.1001 125.7002 192.2998 123.2998 193 121.7998 C
193 119.5 194.1001 117.3999 193.7002 115.1001 C
194.2002 113.7998 194.1001 112.7998 194.2998 111.5 C
194.5 111.5 L
194.2002 105.2002 195.3999 100.2002 194.2002 93.7998 C
193.8999 90.6001 193.7002 88 193.3999 85 C
192.6001 84 193.2002 82.7998 192.7002 81.7998 C
192.3999 78.3999 191 74.5 190.2002 71 C
189.6001 70.7002 189.7998 69.7998 189.6001 69.5 C
188.8999 67.1001 187.6001 64.8999 187 62.2998 C
186 62.2002 186.7998 60.8999 186 60.7998 C
186.1001 60.5 185.8999 60.1001 185.6001 60.1001 C
184.2998 56.3999 182.2998 53.5 180.1001 50.2998 C
180.2002 49.7998 L
179.7002 49.7998 179.6001 49.2002 179.5 48.7998 C
178.1001 46.8999 176.5 44.8999 175.2002 43 C
175.2998 42.7998 L
173.2002 40.5 171.6001 38.5 169.3999 36 C
162.1001 28.2002 154.2998 21.5 144.6001 16.1001 C
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96.7998 3.7998 96.5 4.7998 96.2002 4.3999 C
87.8999 3.7002 79.8999 6.7998 71.6001 8.7998 C
71.3999 8.5 L
69.6001 9.6001 67.2998 10 65.5 10.3999 C
55.7002 13.7002 45.5 19.1001 37.2998 26 C
37.2998 26.6001 36.3999 26.6001 36.3999 27.1001 C
33 29 31.2998 32.2998 28.7002 34.7998 C
28.8999 35.7002 28 34.8999 28.2998 35.6001 C
32.7998 32.2002 38.5 27.3999 43.7002 24.7998 C
47.2002 22.7002 51.1001 21 54.5 18.5 C
56.5 17.5 58.3999 15.2998 60.3999 13.8999 C
60.7998 13.3999 61.7002 14.2002 61.2998 14.6001 C
62.7998 15.7002 63.5 14.7998 64.7002 14 C
65.3999 13.2998 66.3999 11.2998 67.7998 11.7998 C
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75 10.3999 74.2998 11.5 74.8999 12.1001 C
76.7998 11.7002 77.6001 10.7998 78.6001 9.1001 C
79.2998 9.6001 79.8999 10.1001 79.7998 10.8999 C
81.1001 10.7002 83.2002 9.7998 84 8.8999 C
84.5 9.5 84.6001 10 84.7002 10.7998 C
86.7002 10.6001 88.1001 8.3999 89.6001 8.3999 C
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90.5 10.5 91.6001 9.8999 92.2002 10 C
93.6001 8.7998 94 7.2002 96.2002 7 C
97 8.7998 94.2002 9.6001 96.1001 11.2002 C
97.5 10.6001 98.5 9.6001 99.6001 8.6001 C
100.5 8.7998 100.1001 9.8999 100.1001 10.2998 C
99.7998 10.6001 99.2998 10.8999 99.6001 11.3999 C
101.2002 12 102.7002 10.1001 104.2998 8.8999 C
104.8999 8.7002 105.7002 8.5 106 9.2002 C
106 10.6001 104.7002 10.3999 104.2002 10.8999 C
104.2002 12.2002 105.2998 11.7998 106.1001 12.2002 C
106.5 11.7998 107.2002 11.6001 107.6001 11.5 C
108.7002 10.6001 L
109 10.8999 109.2002 10.2002 109.6001 10.2002 C
110.1001 9.7002 111.7002 8.2002 113 8.7998 C
112.3999 10.2002 111.3999 10.7002 110.5 11.8999 C
110.6001 12 L
110.2002 12.6001 L
111.5 12.6001 112.3999 13 113.7998 12 C
114.6001 11.7998 115.7002 11.6001 116.7998 11 C
117.2002 11.7998 116.6001 12.3999 116.2998 13.1001 C
115.7998 13.1001 L
115.8999 13.3999 115.6001 13.8999 115.2002 14 C
116.2002 14.2998 117.6001 14.6001 118.2998 13.8999 C
119.7998 13.7998 119.6001 13.8999 120.6001 13.2002 C
121.1001 13.2002 122 12.7002 122.6001 13.2002 C
121.8999 13.8999 121 14.7998 121 15.3999 C
121.2998 16.6001 123.1001 15.6001 124 15.7002 C
125.6001 15.1001 126.8999 13.3999 128.3999 14 C
127.7998 15.5 126.6001 16.2998 125.5 17.2998 C
127.5 18.1001 129.6001 16.8999 131 16 C
132.6001 16.2002 L
132.7002 18.1001 127.8999 19.1001 130.8999 20.6001 C
131.5 20.1001 132.7002 20.2002 133.3999 19.2998 C
134.6001 18.7998 136.1001 18 137.5 17.2002 C
137.7002 17.3999 138.1001 17.2002 138.2002 17.5 C
137.7998 19.3999 135.8999 20.2002 134.5 21.2002 C
134.6001 21.3999 L
134.6001 21.8999 133.8999 21.5 134.2002 22.2002 C
134.2002 22.1001 L
137.2002 22.1001 139.6001 19.7998 142.8999 20 C
142.6001 20.3999 L
142.7002 20.3999 142.8999 20.3999 142.8999 20.5 C
141.7002 22 139.5 22.7998 138.3999 24.7998 C
139.7998 25 L
139.7998 25.2002 L
141.7002 24.7998 143.7998 23 145.7002 23 C
146.1001 24.6001 143.7002 25.2998 142.8999 26.2002 C
142.6001 26.5 142.2002 26.7002 142.6001 27.2002 C
143.2998 27.5 L
145 26.7998 147.7002 26.3999 149.2998 25.8999 C
149.5 25.8999 150.2002 26.2998 149.7998 26.6001 C
148.2002 27.7002 146.2002 28.2002 145.7998 30 C
147.8999 29.7002 150.6001 28.7002 152.6001 28.6001 C
152.7998 28.7002 L
151.7002 30.7002 149.2998 30.5 148 31.8999 C
148.7998 32.6001 148.8999 32.2998 150 32.8999 C
150.5 32.7002 151.3999 32.2002 152.2002 32 C
154 32.3999 156.2002 30.8999 158.2998 31.8999 C
158.2998 32.1001 158.1001 32.2002 158 32.2998 C
157.7002 32.2002 L
157.8999 32.3999 L
156.2998 34.2002 152.2998 34.2002 151.7002 36.1001 C
152.7998 36 154.7998 35.8999 156 35.7998 C
157.6001 35.6001 159.2998 35 161 35.6001 C
161.2998 36.2998 160.6001 36 160.2998 36.3999 C
160 36.3999 L
160 36.7002 L
158.2002 37.3999 156.5 38.3999 155.2002 39.3999 C
158.6001 39.1001 162.1001 38.7998 165 38.7998 C
165.2002 39.6001 164.1001 39.8999 163.3999 40.1001 C
161.7002 40.7998 159.7002 41.2002 158.2998 42.3999 C
159.1001 42.7002 161 42.1001 161.5 42.7998 C
162.2002 42.3999 162.8999 42.3999 163.6001 42.7998 C
165.3999 42.5 167.2998 42.7002 169.1001 42.5 C
169.2998 42.7002 169.2002 43 169.2002 43.2998 C
168.7002 43.5 167.7998 44.5 166.6001 44.5 C
165.2002 45.1001 163.3999 45.2002 162 46.1001 C
161.7002 46.6001 162.2998 46.7002 161.7998 47.2002 C
163.8999 48 166.1001 46.5 168.2002 47 C
168.8999 46.6001 169.6001 47 170.3999 47.3999 C
168.8999 49.2998 166.5 48.3999 164.7998 50.2002 C
165.8999 50.6001 168.1001 51.1001 169.8999 50.5 C
170.2002 50.7002 170.3999 50.7998 170.6001 50.5 C
172.2998 50.2002 174.2998 50.3999 175.7998 50.2998 C
176.3999 50.6001 L
175.8999 51.3999 174.7002 52.1001 173.8999 51.7998 C
171.8999 53.1001 170 53.1001 167.6001 53.8999 C
167.2002 54.3999 167.7998 54.7002 168.1001 55.1001 C
171 55.5 174.1001 55.3999 177.2002 55.3999 C
177.8999 55.8999 177 56.5 176.7998 56.6001 C
175.2998 57.3999 172 56.8999 171 58.3999 C
170.3999 58.2998 170.5 59 170 59.2002 C
172.2998 60.2998 175 59.2998 177.3999 60.1001 C
177.2002 60.2002 L
177.7998 60.2002 178.2002 60.7002 178.7002 61 C
177 62.8999 174 61.3999 172.2002 63.3999 C
172.3999 63.8999 173.7998 63.6001 174.3999 63.7998 C
176.6001 64.2998 179.2998 64.1001 181.6001 65.2002 C
181.6001 66.1001 180.2002 66.2002 179.6001 66.3999 C
177.8999 66.7002 175.2998 66.2002 173.8999 66.7002 C
173.8999 67.1001 L
175.2998 67.2998 176.7998 68 177.7998 68 C
178 68.3999 178.8999 68.2998 179.3999 68.7998 C
180.8999 69 182.7002 69.1001 184.2002 69.6001 C
184.3999 70 L
182.7002 70.7998 181.3999 70.7998 179.3999 71.2998 C
178.2998 71.7998 177 71.2002 175.8999 71.3999 C
176.7998 73.7998 179.5 72.8999 181.2998 73.7998 C
182.3999 73.7998 183.1001 74.1001 183.6001 75 C
181.7998 77.1001 178.8999 74.5 177.2002 75.7998 C
176.7998 78.3999 181 77.2002 181.7998 78.6001 C
183.5 78.7998 185.2998 79.2998 186.7002 79.7998 C
187 80.2998 L
184.7002 81.1001 181.2002 81 178.7002 81 C
178.6001 81.6001 179.1001 82.2998 179.6001 82.7002 C
180.2002 82.7002 180.3999 83.1001 180.7998 83.2998 C
182.6001 84.2002 183.2002 83.7998 184.8999 85.1001 C
183.5 87.2002 181.2998 85.5 179.3999 85.3999 C
179.1001 86.3999 179.5 87.3999 180 88.2002 C
180.7002 88.2002 180.7002 88.7002 181.1001 89 C
183.7002 90.5 185.7998 91 188.5 92.2002 C
188.8999 92.7998 L
185.8999 94.7998 183.3999 91.3999 179.8999 92.3999 C
180.6001 92.7998 179.7998 93.5 180.2002 94.2002 C
181.6001 94.7998 183.2002 95.2998 184.2002 96.2002 C
184.8999 96.2998 185.7998 97.2002 186.6001 97.2998 C
188 97.5 189 98.6001 190.2998 99.1001 C
187.2002 100.7002 184.2998 97.7002 181 98 C
180.2998 99.5 180.7002 100.3999 182.2002 101 C
183.7002 101.7998 185.2002 102.6001 186.5 103.7002 C
186.5 103.6001 L
186.8999 103.2998 186.8999 103.8999 187.2002 104 C
187.2002 103.8999 L
188.1001 104.1001 188.2002 105.2998 189.6001 105.3999 C
189.7002 106 L
188.8999 106.2002 L
186 105.3999 183.3999 104.2998 180.5 103.8999 C
180.7998 104.6001 181.3999 105.3999 181.7998 105.5 C
182.3999 106.3999 183.6001 107.3999 185 107.5 C
185 108.1001 186 107.8999 186.3999 108.7998 C
185.7998 109.5 184.3999 108.8999 183.7002 109.7998 C
183.5 110.2998 184.6001 110.3999 184.2002 111.2002 C
184.7998 111.3999 184.8999 112.5 185.6001 112.6001 C
185.2002 112.8999 187.2002 114 185.3999 114.1001 C
184.1001 113.5 L
183.7998 114.7998 183.6001 116.1001 184.2002 117.3999 C
184.2998 117.2002 L
184.7998 117.8999 185.7002 117.7998 186.3999 118.7998 C
185.7998 119.3999 L
185.2998 119.2998 184.6001 119.1001 184.1001 119.2002 C
184.2998 121.5 184 123.3999 184.2998 125.8999 C
184 126.6001 184.5 127.6001 183.7998 128.2002 C
184.6001 128.7002 183.7002 129.2002 183.7998 129.7998 C
183.7002 129.7002 L
183.7998 130.7002 183.6001 132.1001 183.5 133.2998 C
183.2002 133.2998 L
183.5 133.8999 183.2002 134.6001 183.5 135 C
183.1001 135.2998 183.5 135.3999 183.2002 135.7002 C
183.5 136 L
183 136 L
183.2998 136.8999 182.8999 139.2002 183.2002 140.5 C
183.5 140.7998 L
182.8999 141.6001 183.6001 142.2998 183.1001 143.3999 C
183.7002 143.3999 183.5 144.7002 183.7002 145.1001 C
183 145.3999 183.7998 146.2002 183.6001 146.8999 C
183.7002 145.8999 184.2998 145.8999 184.3999 145 C
f
131.8999 132.7998 m
132.8999 132.5 134.2002 132.7002 135.3999 132.7998 C
135.3999 132.7002 L
138.8999 132.2002 141.7998 132.7002 145.1001 132.5 C
145.6001 132.6001 L
145.6001 132.5 L
146.2998 132.5 147.8999 132.7002 149 132.3999 C
150 133.2998 151 132 151.8999 132.6001 C
154.7002 132.7998 157 132.2002 160 132.6001 C
160 132.5 L
165.2998 132.2002 172.7002 132.5 178 132.2002 C
178.2998 131.6001 179.2002 131.2002 179.5 130.6001 C
179.2998 126 179.8999 120.5 179 116.2998 C
179.2002 115.2998 179.2998 114.2998 179.3999 113.5 C
178.7002 112 180.5 109.7998 177.7998 109.2002 C
176.7998 109 176 109.3999 175.2002 109.8999 C
175.1001 110.7998 174.8999 112.1001 175 113.2002 C
175 114 174.3999 116.6001 175.1001 118 C
175.3999 119.7998 174.2002 120.8999 175 122.6001 C
173.8999 122.7998 174.6001 124 174.6001 124.6001 C
174.6001 125.8999 173.7998 127.1001 173.2998 128.5 C
171.1001 129.3999 169.6001 128.2002 167.5 128.6001 C
165.2998 129 162.2998 129.1001 160 128.5 C
150.3999 128.3999 142.1001 127.7998 132.2002 128 C
132 127.7998 L
130.3999 127.8999 127.5 128.1001 126.2002 127.2002 C
125.8999 126.2002 125.7998 125.7002 125.5 124.8999 C
125.7002 123.8999 125.2998 122.7998 125.7998 121.8999 C
125.5 121.6001 L
126 121.3999 L
125.7002 120.2002 126.1001 118.6001 125.6001 117.5 C
126 116.7998 L
125.7998 116.7998 125.7998 116.6001 125.6001 116.5 C
125.7002 114.7002 125.5 113.1001 125.3999 111.3999 C
124.5 110.7002 125.7998 108.1001 123.7998 108.6001 C
122.6001 108.3999 121.2998 108.8999 120.6001 109.7998 C
120.7002 110.7002 120.3999 111.7998 120.6001 112.7998 C
119.8999 113.1001 121 113.2998 120.6001 113.7998 C
120.3999 115.5 120.5 117.6001 120.5 119.5 C
120.7002 119.5 L
120.2002 119.7998 120.7002 120.2998 121 120.7002 C
120.6001 120.7998 121 121.3999 120.7002 121.7002 C
120.2998 121.3999 121.5 122.1001 120.7002 122.2998 C
120.7998 122.2002 120.8999 122.2998 121 122.3999 C
120.7002 122.6001 L
120.8999 122.6001 121 122.7998 121.1001 122.8999 C
120.6001 122.7998 121 123.7998 120.7002 124.1001 C
120.7998 124.1001 L
121 125.5 120.7998 125.7998 120.7998 127.7002 C
120.6001 128.2998 120.7002 128.2998 120.7998 129.1001 C
121 129.1001 L
120.7002 130.2002 L
121 130.2002 L
120.1001 130.5 121.6001 131.2002 121.1001 131.6001 C
121.8999 132.1001 122.3999 132.1001 V
122.6001 131.8999 L
123.2002 132.3999 124 131.7998 124.2998 132.6001 C
130.2002 132.7998 L
130.2002 132.7002 L
131.8999 133 L
131.8999 132.7998 L
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135.3999 123 m
135.7002 122.7998 L
135.2002 122.3999 L
135.6001 121.8999 L
135.5 122 L
135.2998 121.8999 135.3999 121.7002 135.3999 121.6001 C
135.3999 121.3999 135.6001 121.3999 135.7002 121.3999 C
135 119.3999 135.5 117.6001 135.2002 115.2998 C
135.2002 114.3999 135.7998 114 136.1001 113.3999 C
136.2002 113.5 L
137.3999 111.7002 140.8999 112.8999 142.8999 112.7002 C
144 112.6001 144.7002 113.3999 145.8999 112.7998 C
146.5 113.3999 148.2002 113 147.5 114.2002 C
145.2998 117.2002 141.2002 113.2002 139.7998 117.2002 C
139.5 118.2002 139.3999 119.1001 139.3999 120.2002 C
139.3999 120.1001 L
139.7998 119.7998 139.6001 120.5 139.7998 120.6001 C
139.3999 120.6001 L
140.3999 120.8999 139.6001 121.8999 140.2002 122.5 C
140.1001 122.3999 140.2002 122.2998 140.2998 122.2998 C
140.3999 122.2998 L
139.8999 122.7998 140.8999 123.1001 140.3999 123.6001 C
140.8999 123.3999 L
140.7998 123.8999 141 124.7998 141.6001 124.8999 C
147.6001 124.8999 152.7998 124.5 158.8999 124.7002 C
159.6001 123.6001 160.3999 122.7002 160.1001 121.1001 C
160.2002 120.7998 160.3999 120.2998 160.3999 120.1001 C
160.3999 120.2002 L
159.7002 118.6001 160.7998 115.8999 157.7002 115.6001 C
155.8999 115.2002 154 115.5 152.8999 114.1001 C
152.8999 112.7998 154.5 113.3999 154.8999 112.6001 C
157.6001 112.3999 161 112.3999 164.2002 112.6001 C
165.2998 113.6001 164.5 115.2998 165.2002 116.2002 C
164.7998 116.7998 165.3999 117.1001 165 118.1001 C
164.7998 118 164.7998 118.2002 164.6001 118.2998 C
164.7002 119.2002 165 121.1001 165.2002 121.8999 C
164.8999 122.2998 L
165.8999 122.7002 164.2998 124 165.7998 124.2002 C
165.7002 124.7998 166.7002 125.5 167.2002 125.7998 C
167.6001 125.7998 L
167.7998 125.3999 168.3999 125.2998 168.7998 124.8999 C
169.7002 123.7998 L
169.8999 121.3999 169.6001 118.1001 169.8999 115.2998 C
169.7002 115.1001 L
169.7002 109.1001 L
164 107.7998 158.8999 108.6001 153.2002 107.8999 C
151.8999 106.2002 152.5 103.5 150.5 102.3999 C
149.3999 102.2998 148.2998 102.7998 147.6001 103.3999 C
146.8999 104.3999 148.1001 105.3999 146.8999 106.2002 C
147 106.7002 147.1001 107.1001 146.8999 107.6001 C
145.3999 108.3999 L
141 108.6001 136.3999 107.8999 131.5 108.3999 C
130.7998 110.1001 131 111.2002 130.3999 112.7998 C
129.8999 113.2002 131 113.8999 130.2002 114.2002 C
130.2998 116.3999 129.7998 119 130.7002 120.7998 C
129.6001 120.7002 131.3999 121.5 130.3999 121.8999 C
130.1001 122.3999 131 122.2002 130.6001 122.6001 C
130 124 130.8999 125 132.1001 125.7998 C
132.7002 125.7002 133.6001 126.2002 134 125.5 C
134.5 124.7998 135.3999 124.2998 135.3999 123 C
f
1 D
148.6001 121.1001 m
147 120.8999 145.2998 122.2002 144.1001 120.2002 C
143.6001 119.5 144.5 119.7002 144.7002 119.2002 C
147.7998 118.3999 152.1001 119 155.2998 119.2002 C
155.5 119.7998 L
155.2998 119.7998 L
155.2002 120.5 154.3999 120.6001 154.1001 121 C
152.2002 121.2002 150.6001 121.6001 148.6001 121.1001 C
f
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162.6001 105.7998 m
162.7998 105.1001 164 105.3999 164.2998 105.1001 C
165.7998 104 168.1001 102.1001 169.2998 100.6001 C
169.3999 99.8999 169.7002 98.7998 169.1001 98.7998 C
165.7002 100.3999 162.5 102.3999 159.7002 105 C
159.7002 105.1001 158.7998 105.1001 159.1001 105.5 C
160 105.7002 160.7002 105.6001 161.7998 105.6001 C
161.8999 106 L
162.2002 105.7998 162.2002 105.5 162.6001 105.7998 C
f
144.3999 104.5 m
144.5 102.7002 145.6001 100.2998 147.2002 99.3999 C
147.7002 99 148.2998 99.2002 148.6001 98.5 C
150.2998 99.5 151.8999 98.7998 153.1001 97.7998 C
153.7002 96.3999 156.1001 95.1001 157.2998 94.6001 C
157.5 94.2998 157.3999 94 157.3999 93.7002 C
157.6001 93.6001 158.5 92.7002 158.5 91.7998 C
158.8999 91.8999 159.2002 91.2998 159.2002 91 C
159.3999 91.1001 L
162.2002 87.6001 165.1001 84.7998 165.7998 80.2002 C
165.3999 79.7002 165.6001 78.7002 165.3999 77.8999 C
163.8999 78.2002 164 80 162.7998 80.8999 C
160.5 84 157.6001 87 154.3999 89.7998 C
153.6001 90.7998 152 92.2002 150.7998 93.1001 C
150.6001 92.7998 150.1001 92.5 150.5 92.2002 C
150.3999 92 150.6001 91.8999 150.7002 91.7998 C
151 92 L
151.5 90.7998 152.2998 89.6001 153.1001 88.6001 C
155.3999 85 L
155.5 85.1001 L
156.8999 83.6001 157.8999 81.1001 159 79.8999 C
159.1001 78.1001 161 77.8999 160.8999 76.1001 C
161.2002 76.1001 L
161.5 75.2002 161.6001 74.1001 162.2002 73.3999 C
162.2998 72.3999 163 72.1001 163 71 C
163 70 162.2998 69.7998 161.8999 69.1001 C
159.3999 72.6001 L
159.5 72.7002 L
154.2002 80.7002 148.7998 87.7002 141.5 94 C
141 94 L
140.8999 94.2998 140.2002 94.8999 139.7002 95.2002 C
139.2998 96 138.1001 95.5 138.1001 96.6001 C
137.8999 96.6001 L
137.7998 100.3999 L
138.3999 101 L
138 101.2998 L
138.3999 101.2998 L
138.3999 102.3999 138.2002 103.1001 139 103.8999 C
138.7002 104.7002 140.2998 104.7002 141.1001 105 C
144.3999 104.5 L
f
158.2998 101.2998 m
158.5 100.1001 159.7002 100.2002 160.3999 99.2002 C
163.2998 96.5 165.5 94.1001 168.1001 90.3999 C
167.7002 89.5 169 88 167.5 87.2002 C
166.6001 88.3999 164.7998 89.5 164.2002 90.7002 C
163.2002 91 162.7002 92.3999 161.6001 93 C
160.6001 93.6001 159.7002 95.2002 158.7998 95.8999 C
157.3999 97.5 155.2002 98.7998 154.2998 100.7002 C
155.2002 101.7998 L
155.1001 102 155.7002 102.6001 155.6001 103.2002 C
156.2998 102.7002 157.5 101.7998 158.2998 101.2998 C
f
136.7998 93.7002 m
136.8999 93.8999 137.5 93.2998 138 93.5 C
138.5 92.7998 139.6001 93.2002 140.2002 92.3999 C
142.1001 91.2998 142.6001 90 144.7002 88.3999 C
144.7998 88.6001 L
145.2998 87.7998 L
145.3999 88 L
145.8999 87.3999 146.7998 86.3999 147.2002 85.7002 C
148.1001 85.8999 147.3999 83.8999 148.7998 84 C
148.6001 83.6001 149.1001 83 149.2998 83.2998 C
150 81.5 151.2998 81 151.7998 79.1001 C
152 79.1001 L
151.6001 78.6001 152.3999 78.7998 152.2002 78.2002 C
152.6001 78.2998 152.5 77.6001 152.8999 77.2002 C
153 77.2998 L
153.2998 75.7998 154.7002 74.2002 154.8999 72.6001 C
155.2002 72.6001 L
155.5 70 157.2002 67.7002 157.3999 65.6001 C
157.8999 65.2998 158.2002 64.7002 158 64.1001 C
158.3999 64.2002 L
159.5 62.3999 157.8999 60.8999 157.2998 59.7998 C
157.2002 59.7998 157.1001 60.1001 157 60 C
156.7002 59.7998 L
156.3999 60.6001 156.1001 61.5 155.6001 62.2002 C
155.1001 63.5 154.8999 66.1001 153.5 67.1001 C
152.1001 69.7998 151 72.2002 149 74.5 C
149.2002 74.5 149.2002 74.6001 149.2998 74.6001 C
147.6001 76.7002 146.5 79 145 80.2998 C
144.3999 79.6001 L
145 77.7998 146.2002 76 147 74.2998 C
146.7998 73 147.8999 72.7002 148.2002 71.2002 C
148.5 70.8999 148.1001 69.7998 148.7002 70 C
149.2002 68.1001 150 65.8999 150.7002 63.6001 C
151 63.6001 L
150.7002 62.1001 151.8999 61.5 151.7998 60.1001 C
152.8999 57.7998 152.3999 57 153.7002 54.7002 C
153.5 54.7002 152.2998 53.2998 151.7998 52.7002 C
150.8999 52.8999 151.7002 54.1001 150.7998 54.2002 C
151 54.2002 L
151 54.3999 150.7002 54.7998 150.6001 55 C
150.3999 55.6001 150.1001 57.1001 149.3999 57.7002 C
149.5 57.7002 L
149.2002 58.6001 148.5 59.7998 148.1001 60.6001 C
148.2998 61 147.7002 61.5 147.7998 61.8999 C
147.5 61.8999 L
147.7998 63 147 63.2002 146.7998 64.2998 C
146.5 64.2998 L
146.2998 65.2002 146 65.5 145.7998 66.6001 C
145.6001 67.1001 L
145.3999 67 145.3999 66.7998 145.3999 66.7002 C
145.2002 68.2998 143.8999 68.6001 143.5 70.2002 C
143 70.2002 L
142.7998 69.6001 142.8999 68.8999 142.8999 68.2998 C
143.2998 68.3999 L
143.7998 66.7998 143.6001 65 144.5 64 C
144.5 62.7998 144.8999 62.2002 145.1001 61 C
145.5 60.7998 145.2998 59.2002 146 58.8999 C
145.7998 58.3999 146.5 58.1001 146 57.5 C
147 54.8999 147.3999 50.8999 148.3999 48.2002 C
146.5 46.2998 L
145.3999 48.7998 144.5 51.3999 143.7998 53.6001 C
143.3999 54.7998 142.6001 55.7998 142.2998 57.3999 C
142.1001 57.3999 L
142.2002 57.6001 142.2998 58.1001 142.2002 58.2998 C
140.8999 58.6001 142.2002 60 141.1001 60.2002 C
141.2002 60.8999 140.5 61.7998 140.2998 62 C
140.5 62.2998 L
139.7998 62.5 140.3999 62.7998 139.7998 63.2002 C
139.6001 63.7002 139.2998 64.2002 138.7998 64.6001 C
138.7002 64.3999 L
138.7002 64.2998 138.7998 64.8999 138.6001 65 C
137.2998 65 138.3999 64.2002 138.1001 63.5 C
138.3999 63.2002 L
138.5 63.2998 138.5 63.5 138.5 63.6001 C
138.2998 62.7998 138.7002 62.6001 138.6001 61.7998 C
139.2998 61.5 139.2002 60.6001 139.1001 59.8999 C
139.7998 59.8999 139.6001 58 140 57.6001 C
140.2998 56.3999 140 55.2998 140.7998 54.3999 C
140.7002 52.2998 141.3999 51.1001 141.2002 49.2002 C
141.8999 47.2002 141.7998 44.7002 142.2002 42.6001 C
142.2002 42.2998 142.2998 41.6001 141.7002 41.3999 C
141.1001 41.2998 L
141.2002 41.5 141 41.6001 140.8999 41.7998 C
141 41.7998 L
140.7002 43.5 140.2002 44.7002 139.3999 46.2998 C
139.1001 46.7998 139.7998 47.7002 138.7998 47.8999 C
139.3999 49.1001 138.1001 50 138.1001 51.2002 C
137.7998 52.6001 L
137.6001 52.3999 L
137 54.5 135.8999 57.3999 135 59.2002 C
135.3999 59.8999 134.2002 60.1001 134.2998 60.7998 C
134.2002 60.7002 L
133.8999 61.2002 134.2002 61.7002 133.3999 61.7998 C
132.5 60.2998 134.2002 58.6001 133.7998 56.7998 C
134.2002 55.2002 134.7998 52.6001 135.1001 50.7998 C
135.5 50.5 135.1001 49.2002 135.7002 48.7998 C
135.6001 48.7998 L
136.1001 48 135.6001 46.5 136.2998 46 C
136.2002 46 L
136.7002 44.2002 136.2002 42 136.7002 40.7002 C
136.8999 40.7002 L
136.6001 39.7998 136.6001 40.1001 136.3999 39 C
136.3999 38.1001 136.1001 37.2998 135.3999 36.7002 C
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121.7998 42.2998 121.8999 42.7998 121.3999 42.7998 C
121.7002 42.7998 L
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121.5 45.7998 120.3999 46.7998 120.1001 48.2002 C
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118.7002 35.6001 119.2998 32.7998 118.7998 30.2002 C
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117 28.6001 115.8999 29.7002 116.2998 31.7002 C
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116.2998 35.2998 L
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116.2002 35.7998 L
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111 51.8335 m
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76.3335 44.5 70.5 46.3335 67.3335 45.6665 c
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50 39.9165 51.4165 40.25 52 39.8335 c
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49.9165 35.1665 51.3335 35.8335 52.0835 36.3335 c
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57.0835 37.75 55.9165 35.5 55.0835 34.5835 c
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61.25 28.75 64.0835 31.75 64.9165 33.25 c
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82.5 36.3335 81.8335 34.3335 81.4165 32.8335 c
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88 37.1665 88.0835 35.6665 87.9165 33.5835 c
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89.0835 26 90.1665 28 90.5835 30.3335 c
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94.4165 35.75 94.75 35 94.5 34.0835 c
94.25 33.1665 94.5 32.5835 94.3335 31.9165 c
94.1665 31.25 93.5835 29.8335 93.4165 28.5 c
93.25 27.1665 93.4165 25.9165 93.25 25.1665 c
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97.3335 30.75 97.4165 31.75 v
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99.0835 28.5 98.1665 24.25 98.6665 24.0835 c
99.1665 23.9165 100.8335 24.8335 101.1665 27.5835 c
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/introduciton.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,11 @@
+\chapter{序論}
+\pagenumbering{arabic}
+
+\section{研究背景と目的}
+現在、PS3上でのソフトウェアレンダリングエンジンを開発中である。
+これは、Cerium Task Manager 上に実装され、琉球大学情報工学科の3年生の実験で使用中である。
+PS3 のGraphics Engine の仕様は公開されていないため、ソフトウェアレンダリングを実装する必要がある。
+ソフトウェアレンダリングは、SceneGraph、Polygon、Span、Z buffer の各段階があり、それぞれの段階で、並列処理を行
+なう必要がある。
+現在は、Span の生成を1 SPU上で行ない、Z buffer を複数のSPU上で処理している。さらに、他の段階でも並列処理を行なう必\
+要がある。PPUよりもSPUの方が高速なので、1SPU 上で実行するだけでも意味がある。
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/manycore.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,153 @@
+\chapter{Many Core プログラミング} \label{chapter:manycore}
+
+Many Core プログラミングは、一つのマシン内で複数のコアを扱う
+プログラミングである。
+本章では、Many Core プログラミングの要素や難しさを考察し、
+並列プログラムの性能や信頼性を確保するための開発行程を述べる。
+
+\section{定常的な並列度の必要性}
+
+並列実行には Amdahl 則 \cite{amdahl} があり、使用する CPU を増やしても、
+元のプログラムの並列化率が低ければ、
+その性能を生かすことは出来ないとされている。
+例えば、プログラムの8割を並列化したとしても、6 CPU で 3 倍程度の
+性能向上しか得られない (\figref{amdahl}) 。
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.8]{./images/amdahl.pdf}
+  \end{center}
+  \caption{Amdahl 則}
+  \label{fig:amdahl}
+\end{figure}
+
+このことから、恒常的に並列度を維持する必要がある。
+このため、逐次型プログラムの一部を並列化するという手法では不十分である。
+LSI などのハードウェアの場合は、演算の対象がもともと多量の演算と
+データパスを持つので、並列計算の効果を定常的に得られることが多い。
+しかし、C 等で記述されたプログラムでは、for 文や配列のアクセス等に
+並列性が隠されてしまい、それを引き出すことが難しい。
+
+\subsection{プログラムとデータの分割}
+
+プログラムの中の並列度は、主に二つの形で取り出すことができる。
+
+\begin{itemize}
+\item データ並列 \\
+  配列や木の中の個々の要素に対して並列に実行する (\figref{manycore_data_split})
+\item パイプライン処理 \\
+  複数の逐次処理の隣通しを重ねて実行する
+\end{itemize}
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.7]{./images/manycore_data_split.pdf}
+  \end{center}
+  \caption{データ並列}
+  \label{fig:manycore_data_split}
+\end{figure}
+
+この二つを同時に用いることで、定常的な並列度を維持することが
+可能となることがある。パイプライン処理は、
+主にプログラム中で階層的に使われることが多い。
+
+データ並列とパイプライン処理を可能にするためには、プログラムとデータの適切な
+分割を行う必要がある。for 文、あるいは木を辿って処理する個々の
+ステートメントがプログラムの分割の対象となる。
+このとき、データは自明に分割できるわけではなく、
+分割できるデータ構造を採用し、必要ならばコピーを行う。
+
+\subsection{Cell に置けるデータ分割}
+分割されたデータは、通常メインメモリ上に置かれるが、
+Cell の場合は、SPE の LS 上に置かれることになる。
+メインメモリ上で計算を行う逐次型プログラムと異なり、
+コピーのコストを払ってでもデータを分割し、
+複数の CPU で独立に処理する必要がある。特に、DMA 中心のアクセスになる
+Cell の場合は、コピーしやすいように、数 K byte 毎の配列にする方が
+良い。
+
+さらに、Cell は SPE Program コードも LS 上に置かれるため、
+コードをロードする仕組みも必要になる。
+256KB という SPE の少ないメモリ領域を補うため、
+Cell には SPE コードのオーバーレイ機能 \cite{cell_sdk} がある。
+オーバーレイとは、メモリ上の実行プログラムの一部を他のコードと
+置き換えながら実行する手法だが、
+コードを置き換える時に SPE 自体が止まってしまうので、好ましくない。
+そのため、明示的に DMA でコードをロードする必要がある。
+
+\section{同期}
+ここで言う同期とは、複数の CPU がデータの待ち合わせ、または、
+整合性を維持するために、他の CPU との待ち合わせを行うことである。
+
+Many Core では、待ち合わせを行うと並列度が下がってしまうので、
+同期自体を減らす必要がある。
+そのためには、各 CPU が独立に (ロック無し) でデータにアクセス
+できる様にデータを分割すれば良い。
+Cell の場合は SPE の LS 上 にコピーすることになる。
+しかし、SPE はメインメモリからデータを取得する必要があるので、
+取得の際には同期を取る必要がある。
+Cell の場合は PPE と SPE 間の同期に関しては、
+\ref{sec:cell_mailbox} 節で述べた Mailbox を使用する。
+メッセージ交換なので、待ち合わせを避けることが可能である。
+
+\section{デバッグ}
+並列プログラムの特徴として、デバッグが難しいことも挙げられる。
+実行が非決定的 (同じ状態で実行しても結果が異なる) な場合があり、
+バグの状態を再現することが難しい。
+また、個々の Core 上のデータを調べる必要があり、
+デバッガが複数の Core を取り扱えることが必須である。
+Cell の場合、動作している複数 の SPE の一つに対して
+gdb で breakpoint を掛ければ、PPE や他の SPE も同時にストップするが、
+それら全ての CPU を手動で管理するのは厳しい。
+また、PPE と SPE ではメモリ空間が違うため、
+SPE から直接 PPE のデータを見ることができない。
+
+
+\section{並列プログラムの開発行程} \label{sec:manycore_step}
+並列プログラミングでは、以下の段階において、
+それぞれ実装とテストを行う (\figref{manycore_step}) 。
+
+\begin{enumerate}
+\item C によるシーケンシャルな実装 \label{step1}
+\item 並列実行を考慮したデータ構造を持つ実装 \label{step2}
+\item コードを分割し、シーケンシャルに実行する実装 \label{step3}
+\item 分割したコードを並列実行する実装 \label{step4}
+\end{enumerate}
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.8]{./images/manycore_step.pdf}
+  \end{center}
+  \caption{並列プログラムの開発行程}
+  \label{fig:manycore_step}
+\end{figure}
+
+段階 \ref{step1} の実装では、プログラムのアルゴリズムの信頼性を確認するために
+用いる。
+
+段階 \ref{step2} の実装では、コードを分割した際、そのコードが使用できるような
+データ構造への変換が必要になり、段階 \ref{step1} と同じ結果が
+得られるかどうかを検証する。
+
+段階 \ref{step3} の実装では、並列実行を意識したコードの分割を行う。
+この段階まではアーキテクチャに依存しないので、
+ターゲットが開発途中の段階でも記述することが可能である。
+また、実行が決定的 (入力に対して出力が一意に決まる) であるため、
+テストは容易である。
+シーケンシャルな実装であるため、デバッグも二分法により容易に行うことが出来る。
+
+段階 \ref{step4} の実装では、段階 \ref{step3} で分割したコードを
+実際に並列に動かす。段階 \ref{step3} までが動いていれば
+問題なくそのまま動作すると期待される。問題が発生した場合、
+その原因と思われる部分を見つけ、一度段階 \ref{step3} に戻した後、
+前後のコードと合わせて
+入出力データのチェックなどのテストをしていくことが必要となる。
+これにより、問題がプログラムのアルゴリズムなのか、
+並列実行したことによるデータの整合性の問題(同期、データ送受信のずれなど)か
+などを判定することができる。
+
+並列プログラミングでは、以上の段階毎に
+信頼性を確かめながら開発を行っていくことになる。
+
+第 \ref{chapter:taskmanager} 章から説明する TaskManager は、
+以上の開発行程をサポートしたフレームワークとなる。
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/rendering.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,96 @@
+\chapter{レンダリングエンジンの高速化と高機能化}
+\section{光源の実装}
+レンダリングエンジンに光源処理の実装をした。光源は SceneGraph のオブジェクトとして実装され、SceneGraph 側から、操作できる。
+光源は点光源であり、光源数は4つに設定している。
+  \subsection{実装手法}
+
+光源処理は DrawSpan タスク内で行う。描画対象となる Span は法線ベクトルの情報を持っている。
+光源の座標情報は、あらかじめ、各 SPE のローカルストアに確保している。
+描画対象のドット座標と光源の座標から光源ベクトルを求める。
+光源ベクトルと法線ベクトルとの内積を計算し、rgb値に乗算する。%以下に示すAPIで、ユーザ側から光源オブジェクトを取得することが
+%できる。
+
+    %\subsubsection{光源操作のAPI}
+    %getLight(int id);
+    %\begin{verbatim}
+    %\end{verbatim}
+
+    \subsubsection{光源座標のLoad,Update}
+    光源座標のメモリ領域を各 SPE のローカルストアに確保するのは DataLoad タスクで行う。
+    確保された光源座標は DataUpdate タスクで、タスクに引数として渡された光源座標に更新される。
+    SPE側でのメモリ領域の確保、参照には TaskManager のAPIを用いている。
+    以下にそのAPIと各タスクのコードを示す。%\cite{taskmanager_api}
+
+\begin{table}[htb]
+  \begin{center}
+    \caption{TaskManager API}
+    \label{tab:taskmanager_api}
+    \begin{tabular}{|l|l|}
+      \hline
+      get\_input & タスクに渡された引数のポインタを返す \\
+      \hline
+      get\_param & タスクに渡された32ビットのデータを返す。\\
+      \hline
+      global\_alloc & SPE 内で指定されたサイズの領域を確保する\\
+      \hline
+      global\_get & SPE 内で確保された領域のポインタを返す\\
+      \hline
+    \end{tabular}
+  \end{center}
+\end{table}
+
+
+    \begin{itemize}
+    \item DataLoad
+    \end{itemize}
+    \begin{verbatim}
+      static int
+      run(SchedTask *s, void *rbuf, void *wbuf)
+      {
+
+        int size = (int)s->get_param(0);
+        int load_id = (int)s->get_param(1);
+
+        s->global_alloc(load_id, size);
+        
+        return 0;
+      }
+
+    \end{verbatim}
+    \begin{itemize}
+    \item DataUpdate
+    \end{itemize}
+    \begin{verbatim}
+      static int
+      run(SchedTask *s, void *rbuf, void *wbuf)
+      {
+
+        void *idata = (void*)s->get_input(rbuf, 0);
+        int size = (int)s->get_param(0);
+        int load_id = (int)s->get_param(1);
+        void *global_data = (void*)s->global_get(load_id);
+
+        memcpy(global_data,idata,size);
+
+        return 0;
+      }
+    \end{verbatim}
+
+DataLoadは レンダリングのはじめで各 SPE で実行される。DataUpdate タスクは SceneGraph を更新した後、DrawSpan タスクによって描画される前に実行される。
+
+\newpage
+
+\begin{figure}[htb]
+  \begin{center}
+    \includegraphics[scale=0.7]{./images/Ceriumroutine1.pdf}
+  \end{center}
+  \caption{DataLoad,Update タスクの実行タイミング}
+  \label{fig:cerium_routine}
+\end{figure}
+
+DataUpdate タスクには光源の座標情報が渡される。
+
+
+  \subsection{光源処理のSIMD化}
+  光源ベクトルや内積の算出をSIMD演算で実装した。これにより4つ分の光源の処理は、1つ分の光源処理の時に近い実行速度となった。
+
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/taskmanager.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,83 @@
+\chapter{Task Manager} \label{chapter:taskmanager}
+
+Task Manager は、Task と呼ばれる、分割された各プログラムを管理する。
+Task の単位はサブルーチンまたは関数とし、Task 同士の依存関係を考慮しながら
+実行していく。
+
+現在実装されている TaskManager の API を \tabref{taskmanager_api} に示す。
+
+\begin{table}[htb]
+  \caption{Task Manager API} \label{tab:taskmanager_api}
+  \hbox to\hsize{\hfil
+  \begin{tabular}{c|l} \hline \hline
+    create\_task  & Task を生成する \\ \hline
+    run           & 実行 Task Queue の実行 \\ \hline
+    allocate      & 環境のアライメントを考慮した allocator \\ \hline
+    \hline
+    add\_inData   & Task への入力データのアドレスを追加 \\ \hline
+    add\_outData  & Task からのデータ出力先アドレスを追加 \\ \hline
+    add\_param    & Task のパラメータ (32 bits) \\ \hline
+    wait\_for     & Task の依存関係の考慮 \\\hline
+    set\_cpu      & Task を実行する CPU の設定 \\ \hline
+    set\_post     & Task が終了したら PPE 側で実行される関数の登録 \\ \hline
+    spawn         & Task を実行 Task Queue に登録する \\ \hline
+  \end{tabular}\hfil}
+\end{table}
+
+以下に Task Manager を使った記述例を示す。
+このプログラムは、PPE にある文字列データを、SPE が受け取って
+データを改変し、PPEに戻すというプログラムである。
+各 API の詳細は後述する。
+
+\begin{verbatim}
+#define STRSIZE 256
+char sendStr[STRSIZE] = "Hello, World";
+
+int
+main(void)
+{
+    TaskManager *manager;
+    HTask *task;
+    int length = sizeof(char)*STRSIZE;
+
+    // CPU_NUM: 使用する CPU の数
+    manager = new TaskManager(CPUNUM);
+
+    // TASK_RUN = TaskRun::run に対応する ID
+    task = create_task(TASK_RUN);
+
+    /**
+     * タスクの入出力データの設定
+     * @param[1]: address of data
+     * @param[2]: size of data
+     */
+    task->add_inData(sendStr,length);
+    task->add_outData(sendStr,length);
+    
+    task->spawn();
+    manager->run();
+
+    return 0;
+}
+
+TaskRun::run(void *rbuf, void *wbuf)
+{
+    // add_inData で指定したアドレスのデータを取得
+    // recvStr = "Hello, World"
+    char *recvStr = (char*)get_input(rbuf, 0);
+
+    // fixStr にあるデータが、
+    // Task 終了後、add_outData で指定した
+    // sendStr に書き込まれる
+    char *fixStr = (char*)get_input(wbuf, 0);
+
+    strcpy(fixStr, recvStr);
+    fixStr[0] = 'D'; // 文字列データを変換
+    fixStr[3] = 'E'; // 
+}
+
+// 実行結果
+before: Hello, World
+after: DelEo, World
+
+\end{verbatim}
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/thesis_paper.bib	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,239 @@
+@article{akira,
+author = "{Akira KAMIZATO}",
+title = "{Cell を用いたゲームフレームワークの提案}",
+journal = "{琉球大学理工学研究科情報工学専攻 平成19年度学位論文}",
+year = 2008
+}
+
+@manual{cell_abi,
+author = "{International Business Machines Corporation, Sony Computer Entertainment Incorporated, Toshiba Corporation}",
+title ="{Cell Broadband Engine Linux Reference Implementation Application Binary Interface Specification}",
+year = 2007
+}
+
+@manual{cell_cpp,
+author = "{International Business Machines Corporation, Sony Computer Entertainment Incorporated, Toshiba Corporation}",
+title = "{C/C++ Language Extensions for Cell Broadband Engine Architecture Version 2.6}",
+year = 2008
+}
+
+@misc{osmesa,
+author = "",
+title = "{The Mesa 3D Graphics Library}",
+howpublished = "{http://www.mesa3d.org/}"
+}
+
+@misc{fedora,
+author = "",
+title = "{Fedora Project}",
+howpublished = "{http://fedoraproject.org/}"
+}
+
+@misc{ydl,
+author = "",
+title = "{Yellow Dog Linux for PowerPC Computers}",
+howpublished = "{http://us.fixstars.com/products/ydl/}"
+}
+
+@book{amdahl,
+author = "{Brian Goetz, Tim Peierls, Joshua Bloch, Joseph Bowbeer, David Holmes, and Doug Lea}",
+title = "{Java Concurrency in Prac-tice}",
+publisher = "{Addison-Wesley Professional}",
+year = "2005"
+}
+
+@misc{cerium,
+author = "",
+title = "{SourceForge.JP: Cerium Rendering Engine}",
+howpublished = "{https//sourceforge.jp/projects/cerium/}"
+}
+
+@misc{spurs,
+author = "{Keisuke Inoue}",
+title = "{SPU Centric Execution Model}",
+text = "SACSIS 2006",
+year = 2006
+}
+
+@manual{cell,
+author = "{Sony Corporation}",
+title = "{Cell BroadbandEngine \texttrademark アーキテクチャ}",
+year = 2006
+}
+
+@manual{cell_sdk,
+author = "{International Business Machines Corporation}",
+title = "{Software Development Kit for Multicore Acceleration Version 3.1}",
+year = 2008
+}
+
+@manual{libspe2,
+author = "{International Business Machines Corporation, Sony Computer Entertainment Incorporated, Toshiba Corporation}",
+title = "{SPE Runtime Management Library Version 2.3}",
+year = 2008
+}
+
+@article{gongo2,
+author = "{Wataru MIYAGUNI}",
+title = "{Cell 用の Fine-grain Task Manager の実装}",
+journal = "{情報処理学会 システムソフトウェアとオペレーティング・システム研究会}",
+month = "April",
+year = 2008
+}
+
+@article{chiaki,
+author = "{Chiaki SUGIYAMA}",
+title = "{SceneGraph と StatePattern を用いたゲームフレームワークの設計と実装}",
+journal = "{琉球大学工学部情報工学科 平成19年度卒業論文}",
+year = 2008
+}
+
+@misc{blender,
+title = "{blender.org}",
+howpublished = "{http://blender.org/}"
+}
+
+@article{spufs,
+author = "{Toshiyuki SANUKI}",
+title = "{Cell Broadband Engine \texttrademark を用いたブレード・サーバーの設計と実装}",
+journal = "{IBM PROVISION No.48}",
+year = 2006
+}
+
+@misc{sdl,
+author = "",
+title = "{Simple DirectMedia Layer}",
+howpublished = "{http://www.libsdl.org/}"
+}
+
+@misc{sdl_image,
+author = "",
+title = "{SDL\_image}",
+howpublished = "{http://www.libsdl.org/projects/SDL\_image/}"
+}
+
+@manual{opencl,
+author = "{Aaftab Munshi, Khronos OpenCL Working Group}",
+title ="{The OpenCL Specification Version 1.0}",
+year = 2007
+}
+
+@misc{gallium,
+author = "",
+title = "{Gallium3D}",
+howpublished = "{http://www.tungstengraphics.com/wiki/index.php/Gallium3D}"
+}
+
+@inproceedings{cellbe-overview-conference,
+author = {Pham, D. and Asano, S. and Bolliger, M.and Day, M. N. and Hofstee, H. P. and Johns, C. and Kahle, J. and Kameyama, A. and Keaty, J. and Masubuchi, Y. and Riley, M. and Shippy, D. and Stasiak, D. and Suzuoki, M. and Wang, M. and Warnock, J. and Weitzel, S. and Wendel, D. and Yamazaki, T. and Yazawa, K. },
+booktitle = {Solid-State Circuits Conference, 2005. Digest of Technical Papers. ISSCC. 2005 IEEE International},
+pages = {184--592 Vol. 1},
+title = {The design and implementation of a first-generation CELL processor},
+year = {2005}
+}
+
+@INPROCEEDINGS{KOKKEVIS06high-performancephysics,
+author = {V KOKKEVIS and S OSMAN and E L},
+title = {High-performance physics solver design for next generation consoles},
+booktitle = {In Game Developers Conference},
+year = {2006}
+}
+
+@misc{Cellteto,
+author = "{Williams, J. Carter, L. Oliker, J. Shalf, K. Yelick}",
+title = "{3D Lattice Boltzmann Magneto-hydrodynamics (LBMHD3D)}",
+howpublished = "{UTK Summit on Software and Algorithms for the Cell Processor}",
+year = {2006}
+}
+
+@inproceedings{cellbe-spe-overview-conference,
+uthor = {Flachs, B.  and Asano, S.  and Dhong, S. H.  and Hotstee, P.  and Gervais, G.  and Kim, R.  and Le, T.  and Liu, P.  and Leenstra, J.  and Liberty, J.  and Michael, B.  and Oh, H.  and Mueller, S. M.  and Takahashi, O.  and Hatakeyama, A.  and Watanabe, Y.  and Yano, N. },
+journal = {Solid-State Circuits Conference, 2005. Digest of Technical Papers. ISSCC. 2005 IEEE International},
+pages = {134--135 Vol. 1},
+title = {A streaming processing unit for a CELL processor},
+year = {2005}
+}
+
+@article{Cellteto2,
+  author = {A. E. Eichenberger},
+  title =  {Using advanced compiler technology to exploit the performance of the Cell Broadband Engine \texttrademark architecture},
+  journal = {IBM System Journal Vol 45, No.1},
+  year =  {2006},
+}
+
+
+@INPROCEEDINGS{Benthin06raytracing,
+    author = {Carsten Benthin and Ingo Wald and Michael Scherbaum and Heiko Friedrich},
+    title = {Ray Tracing on the CELL Processor},
+    booktitle = {In Proceedings of the 2006 IEEE Symposium on Interactive Ray Tracing},
+    year = {2006},
+    pages = {15--23}
+}
+
+@inproceedings{citeulike:1905188,
+author = {Blagojevic, Filip   and Nikolopoulos, Dimitris  S.  and Stamatakis, Alexandros   and Antonopoulos, Christos  D. },
+booktitle = {PPoPP '07: Proceedings of the 12th ACM SIGPLAN symposium on Principles and practice of parallel programming},
+pages = {90--100},
+publisher = {ACM},
+title = {Dynamic multigrain parallelization on the cell broadband engine},
+year = {2007}
+}
+
+@article{DBLP:journals/cphysics/Fabritiis07,
+  author    = {G. De Fabritiis},
+  title     = {Performance of the Cell processor for biomolecular simulations},
+  journal   = {Computer Physics Communications},
+  volume    = {176},
+  number    = {11-12},
+  year      = {2007},
+  pages     = {660-664},
+  ee        = {http://dx.doi.org/10.1016/j.cpc.2007.02.107},
+  bibsource = {DBLP, http://dblp.uni-trier.de}
+}
+
+@article{1272431,
+ author = {Kurzak,, Jakub and Dongarra,, Jack},
+ title = {Implementation of mixed precision in solving systems of linear equations on the Cell processor: Research Articles},
+ journal = {Concurr. Comput. : Pract. Exper.},
+ volume = {19},
+ number = {10},
+ year = {2007},
+ issn = {1532-0626},
+ pages = {1371--1385},
+ publisher = {John Wiley and Sons Ltd.},
+}
+
+@inproceedings{1128027,
+ author = {Williams,, Samuel and Shalf,, John and Oliker,, Leonid and Kamil,, Shoaib and Husbands,, Parry and Yelick,, Katherine},
+ title = {The potential of the cell processor for scientific computing},
+ booktitle = {CF '06: Proceedings of the 3rd conference on Computing frontiers},
+ year = {2006},
+ isbn = {1-59593-302-6},
+ pages = {9--20},
+ publisher = {ACM}
+}
+@Comment LocalWords:  SACSIS BroadbandEngine sdk Multicore
+
+@article{kono_list1,
+author = "{河野真治}",
+title = "{検証を自身で表現できるハードウェア、ソフトウェア記述言語 Continuation based C と、そのCell への応用}",
+journal = "{電子情報通信学会VLSI設計技術研究会}",
+month = "{March}",
+year = 2008
+}
+
+@article{kono_list2,
+author = "{神里晃, 宮國渡, 杉山千秋, 河野真治}",
+title = "{CからCellアーキテクチャを利用したCbCへの変換}",
+journal = "{電子情報通信学会VLSI設計技術研究会}",
+month = "{March}",
+year = 2008
+}
+
+@article{kono_list3,
+author = "{神里晃, 河野真治}",
+title = "{Continuation based CによるPS3 Cell のシミュレーション}",
+journal = "{情報処理学会システムソフトウェアとオペレーティング・システム研究会}",
+month = "{May}",
+year = 2006
+}
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/thesis_paper.sty	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,375 @@
+%
+% 修士卒業論文スタイルファイル master_papar.sty(ver. 2.1e)
+%                               Time-stamp: <01/03/01 22:01:27 ryuji>
+%
+%         ver 2.1e 2/3/01 ryuji
+%         ver 2.0e 17/12/00 ryuji
+%         ver 1.0e 05/11/99 hiroki
+%
+% modifier: Ryuji Gushiken(ryuji@ads.ie.u-ryukyu.ac.jp)
+%
+% author: Hiroki Taira(hiroki@ads.ie.u-ryukyu.ac.jp)
+
+% usage:
+%
+%\documentclass[a4j]{jreport}
+%
+%\usepackage{master_paper}
+%
+%
+%\jtitle{修士論文スタイルファイル\\自律分散研バージョン}
+%\etitle{\LaTeX  style test file for master paper} 
+%\year{平成11年度}
+%\affiliation{琉球大学大学院理工学研究科\\ 情報工学専攻}
+%\author{名字 名前}
+%
+%\begin{document}
+%
+%\maketitle
+%
+%%要旨
+%\input{abstract.tex}
+%
+%%目次
+%\tableofcontents
+%
+%%図目次
+%\listoffigures
+%
+%%表目次
+%\listoftables
+%
+%%第一章
+%\input{chapter1.tex}
+%%chapter1.texの\chapter{}の後ろに次のコマンドを追加してください。
+%%ページカウントがリセットされ、ページ数がアラビア文字になります。
+%%  \pagenumbering{arabic}
+%%第二章
+%\input{chapter2.tex}
+%%第三章
+%\input{chapter3.tex}
+%
+%%付録
+%\input{appendix.tex}
+%
+%%謝辞
+%%\input{thanx.tex}
+%
+%%参考文献
+%\input{biblography.tex}
+%
+%\end{document}
+
+\typeout{****************************************************************}
+\typeout{** 平成15年度 琉球大学大学院 学位論文(修士) ********************}
+\typeout{** スタイルファイル(LaTeX2e) : 非公式       ********************}
+\typeout{****************************************************************}
+
+%長さ設定
+\hoffset -1in \addtolength{\hoffset}{20mm}
+\voffset -1in \addtolength{\voffset}{10mm}
+\oddsidemargin 10mm
+\topmargin 0mm
+\headheight 10mm
+\headsep 15mm
+\textheight 39\baselineskip \addtolength{\textheight}{\topskip}
+\textwidth 160mm
+\marginparsep 3mm
+\marginparwidth 15mm
+\footskip \headsep
+
+
+%年度
+\def\@year{}
+\def\year#1{\gdef\@year{#1}}
+%和文タイトル
+\def\jetitle{}
+\def\jtitle#1{\gdef\@title{#1}}
+%英文タイトル
+\def\@etitle{}
+\def\etitle#1{\gdef\@etitle{#1}}
+%所属
+%\def\@belongto{}
+%\def\belongto#1{\gdef\@belongto{#1}}
+\def\@affiliation{}
+\def\affiliation#1{\gdef\@affiliation{#1}}
+\let\belongto\affiliation
+
+\def\thesis{卒業論文}
+
+%表紙
+%\renewcommand{\maketitle}{%
+%\newpage\null
+%\thispagestyle{empty}
+%\vskip 1cm%
+%\begin{center}%
+%\let\footnote\thanks
+%  {\huge \@title \par}%
+%    \vskip 1.5em%
+%  {\huge \@etitle \par}%
+%    \vskip 2.5em%
+%  {\LARGE \@year \ \thesis \par}%
+%    \vskip 10em%
+%%  {\huge \@belongto \par}%
+%  {\LARGE \@affiliation \par}%
+%    \vskip 1.5em%
+%  {\LARGE \@author \par}%
+%\end{center}%
+%%\par\vskip 1.5em
+%}
+\renewcommand{\maketitle}{%
+\newpage\null
+\thispagestyle{empty}
+\vskip 1cm%
+\begin{center}%
+\let\footnote\thanks
+  {\huge\bfseries\mc\@title \par}%
+    \vskip 3.0em%
+  {\huge\textbf{\@etitle}\par}%
+    \vskip 1.5em%
+  {\LARGE \@year \ \thesis \par}%
+    \vskip 13em%
+  {\LARGE \@affiliation \par}%
+    \vskip 1.5em%
+  {\LARGE \@author \par}%
+\end{center}}
+
+
+%abstract
+\renewenvironment{abstract}{%
+      \titlepage
+      \thispagestyle{empty}
+      \null\vfil
+      \@beginparpenalty\@lowpenalty
+      {\Huge \bfseries \abstractname}%
+      \begin{center}%
+        \@endparpenalty\@M
+      \end{center}
+}%
+
+%目次
+\renewcommand{\tableofcontents}{%
+  \pagestyle{plain}
+  \if@twocolumn\@restonecoltrue\onecolumn
+  \else\@restonecolfalse\fi
+  \chapter*{\contentsname
+    \@mkboth{\contentsname}{\contentsname}%
+  }  \pagenumbering{roman}\@starttoc{toc}%
+  \if@restonecol\twocolumn\fi
+}
+
+%付録
+\renewcommand{\appendix}{\par
+  \setcounter{chapter}{0}%
+  \setcounter{section}{0}%
+  \renewcommand{\@chapapp}{\appendixname}%
+  \renewcommand{\@chappos}\space%
+  \renewcommand{\thechapter}{\@Alph\c@chapter}
+  \renewcommand{\thesection}{\thechapter-\arabic{section}}}
+
+
+%章
+\renewcommand{\chapter}{%
+%  \pagestyle{plain}
+%  \pagestyle{m@tterheadings}
+  \pagestyle{anotherheadings}
+  \if@openright\cleardoublepage\else\clearpage\fi
+%  \thispagestyle{jpl@in}%
+  \thispagestyle{anotherplain}%
+  \global\@topnum\z@
+  \@afterindentfalse
+  \secdef\@chapter\@schapter}
+\def\@chapter[#1]#2{%
+  \ifnum \c@secnumdepth >\m@ne
+    \refstepcounter{chapter}%
+    \typeout{\@chapapp\space\thechapter\space\@chappos (\thepage ページ)}%
+    \addcontentsline{toc}{chapter}%
+      {\protect\numberline{\@chapapp\thechapter\@chappos}#1}%
+  \else
+    \addcontentsline{toc}{chapter}{#1}%
+  \fi
+  \chaptermark{#1}%
+  \addtocontents{lof}{\protect\addvspace{10\p@}}%
+  \addtocontents{lot}{\protect\addvspace{10\p@}}%
+  \@makechapterhead{#2}\@afterheading}
+\def\@makechapterhead#1{\hbox{}%
+  \vskip2\Cvs
+  {\parindent\z@
+   \raggedright
+%
+   \reset@font\huge\bfseries
+   \ifnum \c@secnumdepth >\m@ne
+     \setlength\@tempdima{\linewidth}%
+     \setbox\z@\hbox{\@chapapp\thechapter\@chappos\hskip1zw}%
+     \addtolength\@tempdima{-\wd\z@}%
+     \unhbox\z@\nobreak
+     \vtop{\hsize\@tempdima#1}%
+   \else
+     #1\relax
+   \fi}\nobreak\vskip3\Cvs}
+
+
+\renewcommand{\prepartname}{\relax} %\renewcommand{\prepartname}{第}
+\renewcommand{\postpartname}{部}
+\renewcommand{\prechaptername}{第}%\renewcommand{\prechaptername}{第}
+\renewcommand{\postchaptername}{章}
+\renewcommand{\contentsname}{目 次}
+\renewcommand{\listfigurename}{図 目 次}
+\renewcommand{\listtablename}{表 目 次}
+\renewcommand{\bibname}{参考文献}
+\renewcommand{\indexname}{索 引}
+\renewcommand{\figurename}{図}
+\renewcommand{\tablename}{表}
+\renewcommand{\appendixname}{付 録}
+\renewcommand{\abstractname}{要 旨}
+
+
+%%%% new environment for me(ryuji)
+%定義のための環境
+\newcounter{defnum}[chapter]
+\newcommand{\predef}{定義}
+\newcommand{\postdef}{\relax}
+\newenvironment{definition}{\vskip5mm%
+  \center\begin{minipage}{.8\textwidth}
+  \addtocounter{defnum}{1}
+  \begin{description}\item[\textbf{\predef\thechapter.\thedefnum\postdef}] }
+  {\end{description}\end{minipage}\newline\vskip5mm}
+
+\newcommand{\preex}{例題}
+\newcommand{\postex}{\relax}
+\newenvironment{example}{\vskip5mm%
+  \center\begin{minipage}{.9\textwidth}
+  \begin{description}\item[\textbf{[\preex\postex]\hskip1zw}] }
+  {\end{description}\end{minipage}\newline\vskip5mm}
+
+%%%% customized by me(ryuji)
+%footnoteの表示部
+\def\@makefnmark{\hbox{\@textsuperscript{\normalfont
+  注\kern0.1em \@thefnmark}}}
+
+%%%%%% added by ryuji %%%%%%%%%%
+% ヘディング
+% c.f. 奥村晴彦,''LaTeX2e 美文書作成入門,'' 技術評論社, pp207--231, 1997.
+
+%ヘッダ、フッタに追加するもの
+\def\@lefthead{}
+\def\marklefthead#1{\gdef\@lefthead{\small #1}}
+\def\@leftfoot{}
+\def\markleftfoot#1{\gdef\@leftfoot{\small #1}}
+
+
+%\def\ps@headings{%
+\def\ps@m@tterheadings{%
+  \let\@mkboth\@gobbletwo
+  \let\ps@jpl@in\ps@headnombre
+  \let\@oddfoot\@empty\let\@evenfoot\@empty
+%  \def\@evenhead{\thepage\hfil\leftmark}%
+  \def\@oddhead{\hss\addtolength{\textwidth}{-4.5zw}
+%      \underline{\hbox to \textwidth{\hfil\textbf{\rightmark}}%
+      \underline{\hbox to \textwidth{\vfil\@lefthead\hfil\textbf{\leftmark}}%
+      \hfil\hskip4zw\thepage}}%
+
+  \def\chaptermark##1{\markboth{%
+     \ifnum \c@secnumdepth >\m@ne
+       \@chapapp\thechapter\@chappos\hskip1zw
+     \fi
+     ##1}{}}%
+  \def\sectionmark##1{\markright{%
+     \ifnum \c@secnumdepth >\z@ \thesection.\hskip1zw\fi
+     ##1}}%
+  }
+
+
+%もう一個のバージョン:headings(本命)
+\def\ps@anotherheadings{%
+  \let\@mkboth\@gobbletwo
+  \let\ps@jpl@in\ps@headnombre
+  \def\@oddfoot{\reset@font%
+    \textbf{\footnotesize \@leftfoot}\hfil\bf\thepage}%
+  \let\@evenfoot\@empty
+  \def\@oddhead{\hss
+%      \underline{\hbox to \textwidth{\hfil\textbf{\rightmark}}%
+      \underline{\hbox to \textwidth{\@lefthead\hfil\textbf{\leftmark}}%
+      \hfil}}%
+
+  \def\chaptermark##1{\markboth{%
+     \ifnum \c@secnumdepth >\m@ne
+       \@chapapp\thechapter\@chappos\hskip1zw
+     \fi
+     ##1}{}}%
+  \def\sectionmark##1{\markright{%
+     \ifnum \c@secnumdepth >\z@ \thesection.\hskip1zw\fi
+     ##1}}%
+  }
+%もう一個のバージョン:plain(本命)
+\def\ps@anotherplain{%
+  \let\@mkboth\@gobbletwo
+  \let\ps@jpl@in\ps@headnombre
+  \def\@oddfoot{\reset@font%
+    \textbf{\footnotesize \@leftfoot}\hfil\bf\thepage}%
+  \let\@evenfoot\@empty
+  \let\@oddhead\@empty
+  \def\chaptermark##1{\markboth{%
+     \ifnum \c@secnumdepth >\m@ne
+       \@chapapp\thechapter\@chappos\hskip1zw
+     \fi
+     ##1}{}}%
+  \def\sectionmark##1{\markright{%
+     \ifnum \c@secnumdepth >\z@ \thesection.\hskip1zw\fi
+     ##1}}%
+  }
+
+%スタイルセットのため
+\renewenvironment{thebibliography}[1]
+{\chapter*{\bibname\@mkboth{\bibname}{\bibname}}%
+   \markboth{\bibname}{\bibname}
+   \addcontentsline{toc}{chapter}{参考文献}
+   \list{\@biblabel{\@arabic\c@enumiv}}%
+        {\settowidth\labelwidth{\@biblabel{#1}}%
+         \leftmargin\labelwidth
+         \advance\leftmargin\labelsep
+         \@openbib@code
+         \usecounter{enumiv}%
+         \let\p@enumiv\@empty
+         \renewcommand\theenumiv{\@arabic\c@enumiv}}%
+   \sloppy
+   \clubpenalty4000
+   \@clubpenalty\clubpenalty
+   \widowpenalty4000%
+   \sfcode`\.\@m}
+  {\def\@noitemerr
+    {\@latex@warning{Empty `thebibliography' environment}}%
+   \endlist}
+
+
+%索引のため
+\renewenvironment{theindex}{%
+  \clearpage
+  \columnseprule.4pt \columnsep 2zw
+  \markboth{\indexname}{\indexname}
+  \addcontentsline{toc}{chapter}{\indexname}
+  \begin{multicols}{3}[{\chapter*{\indexname}}]
+    \@mkboth{\indexname}{\indexname}
+    \thispagestyle{anotherplain}%
+    \parindent=0pt
+    \parskip=0pt plus .3pt \relax
+    \let\item=\@idxitem
+    \raggedright
+    \footnotesize\narrowbaselines
+  }{\end{multicols}}
+\def\indexname{索引}
+\def\narrowbaselines{\fontsize\@xpt\@xiipt\selectfont}
+\def\@idxitem{\par \hangindent4zw}
+\def\subitem{\par \hangindent4zw \hspace*{2zw}}
+\def\subsubitem{\par \hangindent4zw \hspace*{3zw}}
+
+%禁則処理の追加
+  %事前でのブレークを禁止(禁止>=10000)
+\prebreakpenalty\jis`,=10000 % ,
+\prebreakpenalty\jis`.=10000 % .
+%\prebreakpenalty\jis"2124=10000 % ,
+%\prebreakpenalty\jis"2125=10000 % .
+%\prebreakpenalty\jis`、=10000 % 、
+%\prebreakpenalty\jis`。=10000 % 。
+%%\prebreakpenalty\jis"2124=10000 % 、
+%%\prebreakpenalty\jis"2125=10000 % 。
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/paper/thesis_paper.tex	Sat Feb 13 21:38:25 2010 +0900
@@ -0,0 +1,70 @@
+\documentclass[a4j,12pt]{jreport}
+\usepackage{thesis_paper}
+\usepackage{ascmac}
+\usepackage[dvipdfm]{graphicx}
+
+\input{dummy.tex} %% font
+
+\jtitle{Cell上のソフトウェアレンダリングの\\高速化と高機能化}
+%\jtitle{Implementation of Fine-grain Task Manager for Cell}
+\year{}
+\affiliation{\center%
+  \includegraphics[clip,keepaspectratio,width=.15\textwidth]
+                  {images/u-ryukyu-Mark.eps}\\
+                  \vskip10mm
+                  琉球大学情報工学科}
+
+\author{金城 裕}
+
+\marklefthead{% 左上に挿入
+  \begin{minipage}[b]{.4\textwidth}
+    \includegraphics[height=1zw,clip,keepaspectratio]{images/emblem-bitmap.eps}
+\end{minipage}}
+\markleftfoot{% 左下に挿入
+  \begin{minipage}{.8\textwidth}
+    Cell上のソフトウェアレンダリングの高速化と高機能化
+\end{minipage}}
+
+\newcommand\figref[1]{図 \ref{fig:#1}}
+\newcommand\tabref[1]{表 \ref{tab:#1}}
+
+%%% 索引のために以下の2行を追加
+\usepackage{makeidx,multicol}
+\makeindex
+\begin{document}
+
+\maketitle
+
+%要旨
+%\input{abstract.tex}
+
+%目次
+\tableofcontents
+
+%図目次
+%\listoffigures
+
+%表目次
+%\listoftables
+
+%chapters
+\input{introduciton.tex}
+\input{cell.tex}
+\input{cerium.tex}
+\input{rendering.tex}
+
+%謝辞
+
+%参考文献
+\nocite{cell}
+\bibliographystyle{junsrt}
+\bibliography{thesis_paper}
+
+
+%発表文献
+%\input{appendix.tex}
+
+%付録
+
+\printindex
+\end{document}