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git-svn-id: file:///afs/psi.ch/project/sls_det_software/svn/slsDetectorsPackage@30 08cae9ef-cb74-4d14-b03a-d7ea46f178d7
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bergamaschi 2012-12-04 15:36:02 +00:00
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47
manual/Makefile Normal file
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DESTDIR?=../docs
all: $(DESTDIR)/pdf/slsDetectors-FAQ.pdf $(DESTDIR)/pdf/slsDetectorInstall.pdf
$(DESTDIR)/pdf/slsDetectors-FAQ.pdf: slsDetectors-FAQ.tex
$(shell test -d $(DESTDIR) || mkdir -p $(DESTDIR))
$(shell test -d $(DESTDIR)/pdf || mkdir -p $(DESTDIR)/pdf)
latex slsDetectors-FAQ.tex
latex slsDetectors-FAQ.tex
dvips -o slsDetectors-FAQ.ps slsDetectors-FAQ.dvi
ps2pdf slsDetectors-FAQ.ps slsDetectors-FAQ.pdf
mv slsDetectors-FAQ.pdf $(DESTDIR)/pdf/
$(DESTDIR)/pdf/slsDetectorInstall.pdf: slsDetectorInstall.tex
$(shell test -d $(DESTDIR) || mkdir -p $(DESTDIR))
$(shell test -d $(DESTDIR)/pdf || mkdir -p $(DESTDIR)/pdf)
latex slsDetectorInstall.tex
latex slsDetectorInstall.tex
dvips -o slsDetectorInstall.ps slsDetectorInstall.dvi
ps2pdf slsDetectorInstall.ps slsDetectorInstall.pdf
mv slsDetectorInstall.pdf $(DESTDIR)/pdf
html: $(DESTDIR)/html/slsDetectorInstall $(DESTDIR)/html/slsDetectors-FAQ index.html
cp index.html $(DESTDIR)/html/
$(DESTDIR)/html/slsDetectorInstall: slsDetectorInstall.tex
$(shell test -d $(DESTDIR) || mkdir -p $(DESTDIR))
$(shell test -d $(DESTDIR)/html || mkdir -p $(DESTDIR)/html)
$(shell test -d $(DESTDIR)/html/slsDetectorInstall && rm -r $(DESTDIR)/html/slsDetectorInstall)
latex slsDetectorInstall.tex
latex2html slsDetectorInstall.tex
mv slsDetectorInstall $(DESTDIR)/html
$(DESTDIR)/html/slsDetectors-FAQ: slsDetectors-FAQ.tex
$(shell test -d $(DESTDIR) || mkdir -p $(DESTDIR))
$(shell test -d $(DESTDIR)/html || mkdir -p $(DESTDIR)/html)
$(shell test -d $(DESTDIR)/html/slsDetectors-FAQ && rm -r $(DESTDIR)/html/slsDetectors-FAQ)
latex slsDetectors-FAQ.tex
latex2html slsDetectors-FAQ.tex
mv slsDetectors-FAQ $(DESTDIR)/html
clean:
rm -rf *.pdf *.ps *.dvi *.aux *.log *.toc *.out slsDetectorInstall slsDetectors-FAQ

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#FIG 3.2
Landscape
Center
Inches
Letter
100.00
Single
-2
1200 2
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-6
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-6
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-6
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-6
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-6
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-6
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-6
2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 6
1200 2700 2100 2700 2100 1875 2250 1875 2250 2700 5100 2700
2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 6
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2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 6
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2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 6
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2 Y -13 Y 1 -1 d -9 Y 1 -1 d -3 Y 5 Y 1 4 d 7 Y -12 Y 1 20 d -6 Y 1 -8 d 21 Y 1 X -23 Y 1 16 d 8 Y -21 Y 1 19 d -14 Y 1 Y 1 14 d -20 Y 1 23 d 14 Y -9 Y 1 8 d -15 Y 1 10 d -27 Y 1 9 d 2 Y -11 Y 1 1 d -16 Y 1 24 d -15 Y 2 Y 1 9 d -1 Y 1 -16 d 5 Y -3
Y 1 15 d -14 Y 9 Y 1 2 d -5 Y 1 4 d -2 Y 12 Y 1 -9 d 3 Y -5 Y 1 -19 d 1 Y 1 23 d -2 Y 11 Y 1 -9 d -4 Y 1 -4 d -12 Y 1 12 d 3 Y -21 Y 1 25 d -15 Y 1 -7 d 16 Y 1 -18 d 8 Y 1 2 d 8 Y 1 -3 d -6 Y 6 Y 1 X -3 Y 1 13 d -2 Y 2 Y 1 6 d 7 Y 1 7 d -11 Y 1 1 d
-12 Y 5 Y 1 4 d 12 Y 1 -26 d 16 Y 1 38 d 30 Y 1 38 d 50 Y 1 -41 d -99 Y 1 -19 d 2 Y 1 36 d -82 Y 1 15 d 9 Y 1 -45 d 50 Y 1 2 d -31 Y 1 22 d -41 Y 1 52 d -33 Y 1 -14 d 30 Y 1 -9 d 18 Y -15 Y 1 3 d -20 Y 24 Y 1 -4 d -7 Y 1 -9 d 20 Y 1 -10 d 6 Y 1 13
d -31 Y 28 Y 1 -14 d 16 Y 1 12 d -19 Y 1 13 d -8 Y 1 Y 1 2 d 3 Y 1 -3 d 20 Y 1 -16 d -4 Y 3 Y 1 8 d 3 Y 1 -13 d -10 Y 31 Y 1 -13 d 2 Y 1 7 d -10 Y 1 5 d 13 Y -16 Y 1 2 d -5 Y 1 X 9 Y -26 Y 1 28 d 1 -3 d 1 Y -13 Y 1 2 d 8 Y 1 -3 d 7 Y 1 X -14 Y 1 18
d -10 Y 1 5 d 30 Y 1 -5 d 1 Y -4 Y 1 4 d 15 Y 1 26 d 37 Y 1 60 d 140 Y 1 335 d 802 Y s 1327 1869 m -335 Y s 1327 1534 m 1 -454 d -269 Y 1 -163 d -101 Y 1 -35 d -20 Y 3 Y 1 -17 d 4 Y 1 -24 d 7 Y -13 Y 1 16 d -4 Y 1 -7 d 8 Y -6 Y 1 -3 d -16 Y 1 14 d
4 Y 1 10 d 19 Y 1 -5 d 20 Y 1 -5 d 29 Y 1 38 d 105 Y 1 69 d 103 Y 1 166 d 862 Y s 1345 1869 m -325 Y s 1345 1544 m -535 Y 1 -216 d -104 Y 1 -81 d -57 Y 1 -25 d 8 Y 1 -12 d -52 Y 1 -11 d -10 Y 17 Y 1 -19 d -7 Y 1 -4 d 20 Y 1 -4 d -9 Y 1 3 d -7 Y 1
-20 d 31 Y -23 Y 1 5 d -1 Y 1 X 10 Y -26 Y 1 4 d 13 Y 1 4 d 2 Y -22 Y 1 13 d -18 Y 1 2 d -3 Y 1 2 d -13 Y 1 13 d 8 Y 1 X 1 Y -15 Y 1 18 d -17 Y 1 -4 d 1 Y 1 5 d -3 Y 1 8 d -10 Y 1 5 d -7 Y 6 Y 1 21 d -47 Y 1 35 d -4 Y 1 -12 d -6 Y 3 Y 1 11 d -23 Y
1 14 d -11 Y 21 Y 1 -14 d 14 Y -12 Y 1 2 d -1 Y 1 -2 d 2 Y -4 Y 1 9 d -7 Y 1 -13 d 10 Y -1 Y 1 8 d -14 Y 2 Y 1 1 d 4 Y 1 -2 d 18 Y 1 -19 d 7 Y 1 -18 d -1 Y 9 Y 1 4 d 14 Y 1 -22 d 4 Y 1 X 5 Y 1 -19 d 17 Y 1 -10 d 14 Y -18 Y 1 -1 d 3 Y -6 Y 1 5 d 21
Y 1 -13 d -5 Y 4 Y 1 -17 d -1 Y 1 9 d 19 Y -10 Y 1 -7 d 2 Y -13 Y 1 13 d 1 -6 d -14 Y 23 Y 1 -1 d -4 Y 3 Y 1 7 d -5 Y 1 -1 d 18 Y 1 -7 d -5 Y 1 -12 d 16 Y -13 Y 1 7 d 2 Y -2 Y 1 3 d 8 Y 1 1 d -3 Y 2 Y 1 -2 d -5 Y 1 -9 d -5 Y 19 Y 1 -7 d -4 Y 18 Y 1
-12 d 1 1 d 14 Y 1 -24 d 4 Y 1 9 d 19 Y -20 Y 1 X -10 Y 1 4 d 4 Y 1 -10 d -3 Y 6 Y 1 -1 d 11 Y 1 -2 d 16 Y -10 Y 1 -5 d -12 Y 4 Y 1 4 d -11 Y 1 1 d -7 Y 1 4 d 14 Y 1 -17 d 17 Y 1 -7 d -2 Y 16 Y 1 -4 d 2 Y 1 -9 d -4 Y 1 Y 1 19 d -10 Y 1 -14 d 12 Y
-3 Y 1 6 d 17 Y 1 -23 d -8 Y 1 X 4 Y -10 Y 1 5 d 1 Y 1 -7 d 4 Y -9 Y 1 3 d 21 Y 1 9 d 4 Y 1 -17 d -11 Y 1 -2 d 1 Y 1 4 d 17 Y -14 Y 1 -21 d 14 Y 1 6 d -1 Y 1 -8 d -3 Y 1 2 d 1 Y 1 4 d -8 Y 6 Y 1 20 d 1 Y -23 Y 1 -12 d 5 Y 1 12 d 12 Y -13 Y 1 4 d
-15 Y 1 -7 d 31 Y 1 6 d 14 Y -9 Y 1 -17 d 1 6 d -3 Y 10 Y 1 12 d 2 Y 1 -20 d 10 Y 1 3 d -9 Y 1 Y 1 5 d -1 Y 1 X -5 Y 1 Y 1 -6 d 11 Y 1 -1 d -7 Y 13 Y 1 -6 d 13 Y 1 -11 d 1 -8 d -1 Y 1 8 d 11 Y -10 Y 1 2 d 1 Y 1 -9 d -11 Y 1 1 d -2 Y 1 -2 d 24 Y 1 X
-21 Y 1 21 d -7 Y 1 -14 d -2 Y 3 Y 1 12 d 1 -4 d -2 Y 1 -6 d 8 Y -3 Y 1 7 d 3 Y 1 -5 d -3 Y 13 Y 1 -10 d -4 Y 1 16 d 2 Y -11 Y 1 4 d -12 Y 1 X 2 Y 1 -8 d 6 Y -4 Y 1 -12 d 6 Y 1 15 d -16 Y 1 X 13 Y 1 -1 d -5 Y 1 -6 d 14 Y 1 3 d -2 Y 1 4 d -7 Y 1 1 d
4 Y -2 Y 1 -3 d -7 Y 1 -1 d -1 Y 1 Y 1 -2 d 11 Y 1 X -10 Y 10 Y 1 -13 d 25 Y 1 -9 d -2 Y 1 7 d 16 Y 1 4 d -5 Y 1 -5 d -5 Y 1 9 d 15 Y -18 Y 1 -7 d -1 Y 1 -3 d 14 Y 1 1 d -22 Y 1 2 d 12 Y -3 Y 1 -1 d 18 Y 1 -5 d -10 Y 1 6 d 2 Y -1 Y 1 -11 d 5 Y 1 -1
d -5 Y 5 Y 1 4 d -2 Y 10 Y 1 -1 d 1 5 d -4 Y 6 Y 1 -8 d 1 Y 1 3 d -11 Y 1 Y 1 16 d 4 Y -9 Y 1 -5 d 2 Y 1 12 d -21 Y 5 Y 1 13 d 3 Y 1 -11 d 6 Y 1 -1 d 4 Y -1 Y 1 -11 d 10 Y 1 16 d -3 Y 1 Y 1 1 d -11 Y 11 Y 1 2 d -11 Y 1 -1 d 13 Y 1 8 d -4 Y 1 -3 d
18 Y 1 -7 d 12 Y 1 X 3 Y 1 X 25 Y 1 16 d -8 Y 1 -2 d 13 Y 1 X 42 Y 1 11 d 20 Y 1 33 d 53 Y 1 2 d 24 Y 1 69 d 141 Y 1 66 d 272 Y 1 242 d 378 Y s 1539 1869 m -124 Y s 1539 1745 m -343 Y 1 -239 d -137 Y 1 -97 d -134 Y 1 -45 d -49 Y 1 -39 d -56 Y 1 -23
d -49 Y 1 17 d 12 Y 1 -25 d -23 Y 1 -1 d -4 Y 1 -13 d -22 Y 1 -14 d 22 Y 1 4 d 4 Y 1 -1 d -21 Y 1 4 d 1 Y 1 -8 d -10 Y 2 Y 1 14 d -11 Y 1 -4 d -13 Y 1 1 d 8 Y -3 Y 1 -3 d -1 Y 1 -4 d -10 Y 7 Y 1 4 d -8 Y 1 1 d 5 Y 1 6 d -16 Y 1 3 d 1 -15 d 16 Y 1
-3 d -9 Y 5 Y 1 5 d -1 Y 1 -9 d -11 Y 1 2 d 24 Y 1 3 d -7 Y 1 -8 d 3 Y -7 Y 1 -5 d 13 Y 1 4 d 6 Y -7 Y 1 -5 d 8 Y 1 6 d 48 Y 1 24 d -9 Y 1 2 d -16 Y 1 -2 d -41 Y 1 -3 d 11 Y 1 -22 d -16 Y 8 Y 1 -1 d -15 Y 1 5 d 1 -9 d -16 Y 1 18 d 4 Y -3 Y 1 1 d -4
Y 1 -2 d 3 Y 1 -2 d -3 Y 1 4 d 8 Y 1 -5 d -11 Y 1 X 18 Y 1 4 d -18 Y 1 -8 d 1 6 d -5 Y 1 5 d -4 Y 6 Y 1 3 d -6 Y 1 5 d -17 Y 1 8 d 7 Y 1 5 d -12 Y 1 3 d -3 Y 1 12 d 10 Y 1 -7 d 12 Y 1 -13 d 2 Y 1 14 d 2 Y -14 Y 1 -6 d 7 Y 1 4 d -2 Y 1 -2 d -8 Y 1 3
d 2 Y 1 2 d 1 Y 1 -15 d -3 Y 8 Y 1 X 9 Y 1 17 d -39 Y 1 8 d -5 Y 1 7 d 19 Y 1 13 d -28 Y 1 11 d -4 Y 1 -11 d -7 Y 5 Y 1 -1 d 10 Y 1 -11 d -6 Y 1 X 21 Y 1 -7 d -8 Y 1 3 d 4 Y -2 Y 1 9 d -4 Y 1 3 d -3 Y 1 -11 d 2 Y 1 2 d -4 Y 1 -5 d 16 Y 1 -9 d -2 Y
1 2 d -12 Y 1 4 d 6 Y -3 Y 1 6 d -7 Y 1 13 d 13 Y -9 Y 1 -10 d 10 Y 1 -1 d -35 Y 1 12 d 6 Y -9 Y 1 5 d 14 Y 1 14 d -41 Y 1 6 d 11 Y 1 7 d -10 Y 1 Y 1 9 d -13 Y 1 11 d -4 Y 1 1 d 9 Y -3 Y 1 5 d -12 Y 1 4 d 5 Y -8 Y 1 -2 d -7 Y 16 Y 1 -7 d -8 Y 1 6 d
42 Y 1 -3 d -15 Y 1 6 d 9 Y 1 -7 d -4 Y 6 Y 1 -4 d 7 Y 1 2 d 4 Y -1 Y 1 -17 d 29 Y 1 -4 d -10 Y 1 3 d 12 Y -4 Y 1 -10 d -15 Y 1 2 d 7 Y 1 -11 d 1 18 d 9 Y 1 -20 d 1 Y -5 Y 1 4 d -4 Y 1 X -3 Y 1 Y 1 -4 d -8 Y 1 9 d 2 Y 1 6 d 8 Y -19 Y 1 -6 d 9 Y 1
-8 d 15 Y 1 -2 d -12 Y 1 Y 1 3 d -7 Y 1 4 d 6 Y -3 Y 1 1 d 3 Y 1 -4 d 1 Y 1 -1 d -8 Y 13 Y 1 2 d -6 Y 1 2 d -8 Y 6 Y 1 -6 d -3 Y 1 13 d -7 Y 14 Y 1 -2 d -7 Y 12 Y 1 4 d 6 Y 1 9 d 21 Y 1 -14 d -15 Y 1 -6 d -6 Y 1 -11 d 12 Y 1 9 d -4 Y 1 -19 d -4 Y 7
Y 1 -5 d 12 Y 1 11 d -13 Y 1 -1 d 12 Y -11 Y 1 -11 d 14 Y 1 9 d 2 Y -18 Y 1 1 d 9 Y 1 -1 d 19 Y 1 -10 d -12 Y 17 Y 1 18 d 9 Y 1 -5 d -9 Y 1 Y 1 29 d -9 Y 1 1 d 11 Y -5 Y 1 16 d 5 Y -4 Y 1 -3 d 18 Y 1 -12 d 38 Y 1 7 d 12 Y 1 6 d 43 Y 1 21 d 58 Y 1
24 d 16 Y 1 74 d 181 Y 1 170 d 257 Y 1 396 d 67 Y s 1707 1869 m -352 Y s 1707 1517 m -275 Y 1 -189 d -210 Y 1 -74 d -60 Y 1 -1 d -53 Y 1 8 d -8 Y 1 -42 d 1 Y -3 Y 1 15 d 15 Y 1 22 d 3 Y 1 21 d 81 Y 1 68 d 99 Y 1 243 d 691 Y s 1719 1869 m -29 Y s
1719 1840 m -329 Y 1 -316 d -374 Y 1 -85 d -56 Y 1 -48 d -52 Y 1 -25 d -38 Y 1 -6 d -22 Y 1 9 d -28 Y 1 -11 d -8 Y 1 13 d -11 Y 1 3 d -19 Y 1 -9 d 17 Y 1 -13 d 1 Y 1 2 d 7 Y 1 13 d -18 Y 14 Y 1 -3 d -18 Y 1 -4 d 10 Y 1 -8 d -19 Y 19 Y 1 -12 d -8 Y
1 -8 d -6 Y 3 Y 1 21 d 5 Y -30 Y 1 14 d 3 Y 1 -19 d 16 Y 1 -12 d 5 Y 1 4 d -23 Y 1 X 35 Y 1 -15 d -11 Y 1 X 10 Y -13 Y 1 -9 d 11 Y 1 14 d 11 Y 1 X -23 Y 2 Y 1 12 d 5 Y 1 -8 d -17 Y 11 Y 1 -5 d 7 Y 1 -5 d -7 Y 1 14 d -9 Y 1 -6 d 27 Y 1 -10 d -11 Y 1
-8 d 20 Y 1 -13 d -19 Y 1 20 d -8 Y 1 2 d 15 Y 1 -11 d -5 Y 1 -10 d 27 Y 1 12 d -14 Y 1 14 d -21 Y 15 Y 1 -6 d 10 Y 1 -16 d 12 Y -4 Y 1 4 d -11 Y 1 -3 d 16 Y 1 -2 d -16 Y 1 3 d 3 Y 1 2 d -9 Y 14 Y 1 -13 d -1 Y 1 -4 d 9 Y -11 Y 1 20 d 8 Y -20 Y 1 9
d -1 Y 1 7 d -25 Y 1 8 d 10 Y -3 Y 1 X -1 Y 1 -5 d 8 Y -4 Y 1 15 d -11 Y 1 -4 d 2 Y -7 Y 1 6 d -3 Y 1 -21 d 9 Y 1 6 d 16 Y -14 Y 1 -18 d 6 Y 1 18 d -13 Y 1 Y 1 16 d -20 Y 1 -5 d -6 Y 1 18 d 5 Y 1 5 d 6 Y 1 -23 d -1 Y 3 Y 1 17 d -15 Y 9 Y 1 6 d -7 Y
1 14 d 27 Y 1 3 d -26 Y 1 2 d 26 Y 1 -9 d -19 Y 1 -2 d -11 Y 1 21 d -32 Y 19 Y 1 -6 d 6 Y 1 -17 d -7 Y 15 Y 1 8 d 8 Y -5 Y 1 -10 d -4 Y 1 -4 d 9 Y 1 6 d 6 Y 1 -4 d 7 Y 1 7 d -33 Y 10 Y 1 -11 d 27 Y 1 -12 d 6 Y 1 -6 d -27 Y 1 32 d -65 Y 1 31 d 20 Y
-5 Y 1 -1 d 14 Y 1 8 d -5 Y 7 Y 1 -14 d 19 Y 1 -14 d -5 Y 3 Y 1 -2 d 7 Y 1 6 d 4 Y 1 -11 d -6 Y 1 4 d 3 Y 1 -2 d 5 Y -1 Y 1 7 d 9 Y -10 Y 1 -9 d 10 Y 1 -8 d 5 Y 1 X 7 Y 1 -12 d 7 Y 1 -7 d 1 Y -3 Y 1 -5 d 1 -5 d 12 Y 1 -2 d 8 Y 1 -5 d 3 Y -7 Y 1 5 d
3 Y -7 Y 1 10 d -7 Y 1 6 d 10 Y -10 Y 1 -6 d 1 -1 d -5 Y 1 17 d -7 Y 14 Y 1 -5 d -10 Y 1 -3 d 9 Y 1 X 1 Y 1 8 d 9 Y 1 -12 d 12 Y 1 9 d -11 Y 1 10 d -1 Y 7 Y 1 2 d -10 Y 1 -6 d 14 Y 1 19 d -21 Y 1 5 d 22 Y 1 2 d -6 Y 25 Y 1 14 d 14 Y -2 Y 1 12 d 13
Y 1 25 d 78 Y 1 43 d 71 Y 1 126 d 527 Y 1 456 d s 1856 1869 m -418 Y s 1856 1451 m -347 Y 1 -200 d -112 Y 1 -61 d -83 Y 1 -27 d -38 Y 1 -8 d 3 Y 1 3 d 36 Y 1 -9 d -2 Y 1 19 d -13 Y 1 -2 d -3 Y 6 Y 1 -7 d 25 Y 1 4 d 21 Y 1 19 d 25 Y 1 20 d 68 Y 1 47
d 159 Y 1 84 d 157 Y 1 228 d 406 Y s 1874 1869 m 1 -313 d s 1875 1556 m -184 Y 1 -97 d -18 Y 14 Y 1 99 d 499 Y s 1880 1869 m -426 Y s 1880 1443 m 1 -298 d -291 Y 1 -73 d -64 Y 1 -36 d -73 Y 1 -18 d -28 Y 1 -15 d 2 Y 1 -28 d -13 Y 1 -9 d -6 Y 1 4 d
-11 Y 1 6 d -19 Y 1 -8 d 1 1 d -16 Y 1 2 d -3 Y 1 -15 d -4 Y 8 Y 1 -1 d -9 Y 1 Y 1 6 d -3 Y 1 -2 d 18 Y 1 -17 d -8 Y 1 -2 d -8 Y 2 Y 1 11 d -14 Y 1 3 d 3 Y 1 -3 d -7 Y 1 -3 d 3 Y -3 Y 1 6 d 2 Y 1 -11 d -2 Y 2 Y 1 3 d 4 Y 1 2 d 4 Y -9 Y 1 2 d 6 Y 1
-12 d -11 Y 1 9 d 7 Y -2 Y 1 1 d 11 Y 1 5 d 2 Y -9 Y 1 1 d -30 Y 1 10 d 22 Y 1 -8 d -5 Y 2 Y 1 6 d 4 Y 1 -5 d -4 Y 1 -3 d -1 Y 1 -9 d 5 Y 1 10 d -14 Y 1 13 d 5 Y 1 -20 d -4 Y 2 Y 1 -4 d 21 Y 1 -1 d -1 Y 1 11 d -16 Y 1 1 d -4 Y 1 -3 d -8 Y 15 Y 1 15
d -5 Y 1 -12 d s 3 lw /w 24 def /w2 {w 2 div} def /w3 {w 3 div} def 340 359 341 346 341 346 341 359 342 361 342 364 342 372 343 366 343 373 344 364 344 382 344 377 345 378 345 400 346 397 346 407 346 407 347 404 347 402 347 405 348 394 348 402 349
404 349 413 349 413 350 420 350 408 351 419 351 416 351 424 352 412 352 400 352 405 353 407 353 425 354 435 354 388 354 412 355 420 355 427 356 434 356 424 356 413 357 424 357 436 357 410 358 426 358 425 359 426 359 414 359 431 360 417 360 413 361
409 361 411 361 426 362 424 362 423 362 419 363 424 363 408 364 399 364 405 364 417 365 453 365 414 366 426 366 401 366 416 367 421 367 419 367 428 368 407 368 418 369 414 369 430 369 421 370 416 370 416 371 405 371 421 371 412 372 415 372 411 372
402 373 418 373 406 374 449 374 427 374 419 375 405 375 420 376 407 376 430 376 437 377 403 377 427 377 423 378 422 378 422 100 { m20} R 379 400 379 399 379 440 380 442 380 442 381 449 381 453 381 433 382 434 382 427 382 457 383 444 383 439 384 447
384 439 384 417 385 446 385 447 385 425 386 447 386 466 387 452 387 449 387 432 388 429 388 430 389 441 389 425 389 449 390 423 390 448 390 443 391 416 391 415 392 437 392 455 392 461 393 439 393 472 394 416 394 431 394 445 395 436 395 456 395 432
396 460 396 453 397 463 397 445 397 434 398 456 398 412 399 439 399 432 399 433 400 444 400 446 400 419 401 434 401 447 402 444 402 446 402 441 403 432 403 426 404 453 404 450 404 432 405 446 405 432 405 444 406 448 406 428 407 453 407 442 407 444
408 447 408 439 409 439 409 419 409 452 410 455 410 436 410 433 411 427 411 448 412 437 412 424 412 428 413 435 413 427 414 436 414 445 414 418 415 447 415 457 415 445 416 443 416 445 417 431 100 { m20} R 417 445 417 448 418 431 418 434 419 440 419
447 419 446 420 445 420 447 420 439 421 430 421 430 422 439 422 439 422 452 423 459 423 468 424 447 424 495 424 446 425 421 425 446 425 453 426 453 426 452 427 450 427 446 427 450 428 448 428 451 429 464 429 448 429 449 430 445 430 446 430 457 431
449 431 451 432 449 432 448 432 444 433 459 433 454 434 434 434 459 434 460 435 457 435 452 435 454 436 451 436 443 437 459 437 457 437 458 438 476 438 476 439 453 439 446 439 447 440 454 440 454 440 456 441 453 441 450 442 443 442 447 442 450 443
448 443 453 444 440 444 453 444 440 445 461 445 463 445 455 446 431 446 438 447 458 447 451 447 446 448 440 448 459 448 451 449 460 449 442 450 463 450 464 450 448 451 442 451 460 452 458 452 447 452 449 453 438 453 441 453 439 454 463 454 440 455
447 455 436 100 { m20} R 455 440 456 442 456 439 457 436 457 451 457 445 458 436 458 458 458 453 459 429 459 456 460 457 460 452 460 443 461 447 461 447 462 431 462 437 462 446 463 441 463 440 463 453 464 443 464 447 465 441 465 446 465 453 466 443
466 439 467 444 467 462 467 450 468 456 468 443 468 439 469 435 469 462 470 456 470 438 470 436 471 431 471 439 472 443 472 437 472 455 473 437 473 453 473 430 474 463 474 467 475 458 475 461 475 450 476 468 476 470 477 466 477 472 477 465 478 458
478 458 478 467 479 468 479 478 480 460 480 463 480 467 481 465 481 473 482 463 482 470 482 461 483 475 483 464 483 456 484 471 484 464 485 470 485 469 485 460 486 457 486 458 487 446 487 455 487 468 488 458 488 467 488 481 489 466 489 454 490 462
490 463 490 463 491 475 491 470 492 486 492 463 492 461 493 461 493 452 493 458 100 { m20} R 494 461 494 482 495 460 495 461 495 484 496 456 496 469 497 468 497 471 497 481 498 463 498 468 498 463 499 469 499 451 500 469 500 478 500 456 501 459 501
453 502 468 502 462 502 462 503 466 503 459 503 466 504 463 504 474 505 466 505 447 505 442 506 445 506 456 507 460 507 472 507 463 508 463 508 455 508 459 509 460 509 468 510 466 510 459 510 475 511 453 511 455 511 460 512 463 512 456 513 460 513
457 513 458 514 455 514 444 515 447 515 445 515 447 516 451 516 462 516 457 517 460 517 467 518 458 518 458 518 470 519 456 519 460 520 472 520 469 520 466 521 456 521 456 521 461 522 466 522 458 523 445 523 443 523 460 524 485 524 481 525 479 525
495 525 480 526 481 526 487 526 480 527 485 527 491 528 476 528 462 528 464 529 481 529 471 530 480 530 475 530 469 531 478 531 472 531 462 532 459 100 { m20} R 532 466 533 469 533 470 533 468 534 465 534 480 535 479 535 473 535 474 536 468 536 469
536 468 537 456 537 465 538 474 538 469 538 450 539 473 539 480 540 467 540 472 540 472 541 471 541 466 541 473 542 462 542 459 543 463 543 466 543 463 544 456 544 465 545 470 545 479 545 488 546 471 546 470 546 474 547 481 547 490 548 475 548 470
548 467 549 476 549 498 550 498 550 507 550 517 551 524 551 544 551 531 552 541 552 536 553 518 553 496 553 474 554 478 554 483 555 470 555 466 555 468 556 463 556 478 556 474 557 472 557 467 558 461 558 466 558 473 559 473 559 473 560 470 560 466
560 461 561 465 561 468 561 483 562 478 562 472 563 461 563 467 563 476 564 461 564 466 565 462 565 470 565 458 566 456 566 471 566 467 567 466 567 471 568 472 568 475 568 470 569 476 569 476 570 468 570 471 570 473 100 { m20} R 571 456 571 458 571
465 572 457 572 464 573 455 573 449 573 456 574 468 574 465 574 465 575 455 575 473 576 461 576 463 576 482 577 484 577 479 578 482 578 475 578 479 579 474 579 476 579 477 580 470 580 478 581 486 581 492 581 493 582 476 582 468 583 475 583 481 583
484 584 481 584 478 584 476 585 477 585 485 586 483 586 478 586 480 587 482 587 481 588 486 588 479 588 479 589 478 589 483 589 481 590 478 590 485 591 479 591 472 591 461 592 462 592 461 593 447 593 446 593 446 594 445 594 449 594 441 595 446 595
475 596 447 596 445 596 456 597 448 597 449 598 478 598 447 598 464 599 453 599 443 599 447 600 444 600 436 601 441 601 444 601 459 602 453 602 454 603 459 603 454 603 457 604 458 604 462 604 459 605 466 605 495 606 495 606 467 606 473 607 486 607
480 608 472 608 470 608 482 609 492 100 { m20} R 609 500 609 489 610 482 610 479 611 476 611 471 611 488 612 485 612 483 613 484 613 493 613 492 614 490 614 482 614 471 615 481 615 491 616 487 616 488 616 475 617 467 617 472 618 493 618 497 618 488
619 489 619 485 619 484 620 483 620 477 621 484 621 491 621 511 622 518 622 521 623 516 623 522 623 515 624 509 624 505 624 514 625 508 625 508 626 522 626 529 626 517 627 515 627 529 628 523 628 527 628 526 629 521 629 530 629 537 630 535 630 518
631 524 631 523 631 516 632 517 632 527 633 523 633 523 633 519 634 517 634 520 634 513 635 524 635 528 636 526 636 532 636 530 637 520 637 517 637 524 638 516 638 522 639 522 639 517 639 517 640 509 640 526 641 525 641 520 641 521 642 517 642 511
642 515 643 527 643 523 644 515 644 521 644 512 645 515 645 528 646 523 646 516 646 520 647 526 647 520 100 { m20} R 647 525 648 525 648 522 649 520 649 527 649 527 650 523 650 517 651 512 651 508 651 507 652 522 652 521 652 527 653 519 653 519 654
517 654 514 654 519 655 518 655 514 656 521 656 520 656 526 657 516 657 509 657 516 658 516 658 512 659 511 659 520 659 517 660 508 660 512 661 513 661 517 661 534 662 527 662 520 662 516 663 513 663 522 664 529 664 528 664 515 665 517 665 528 666
522 666 520 666 524 667 523 667 519 667 521 668 518 668 520 669 521 669 522 669 519 670 528 670 523 671 521 671 529 671 548 672 526 672 515 672 529 673 528 673 517 674 522 674 512 674 506 675 521 675 502 676 499 676 521 676 531 677 522 677 501 677
511 678 527 678 521 679 530 679 530 679 528 680 515 680 507 681 509 681 514 681 501 682 506 682 518 682 513 683 514 683 532 684 543 684 515 684 504 685 517 685 519 686 508 100 { m20} R 686 505 686 516 687 522 687 520 687 538 688 536 688 512 689 515
689 536 689 529 690 524 690 533 691 524 691 523 691 522 692 523 692 520 692 521 693 526 693 516 694 503 694 501 694 511 695 500 695 489 696 493 696 499 696 493 697 493 697 485 697 492 698 493 698 486 699 490 699 487 699 489 700 507 700 502 700 500
701 504 701 498 702 496 702 490 702 499 703 504 703 507 704 510 704 517 704 501 705 498 705 500 705 495 706 499 706 501 707 507 707 512 707 524 708 534 708 521 709 524 709 544 709 531 710 516 710 526 710 528 711 521 711 527 712 541 712 538 712 523
713 519 713 519 714 526 714 531 714 524 715 512 715 525 715 531 716 529 716 536 717 526 717 514 717 524 718 531 718 536 719 532 719 520 719 523 720 535 720 524 720 526 721 523 721 533 722 539 722 529 722 523 723 532 723 537 724 542 724 550 100 {
m20} R 724 547 725 560 725 565 725 558 726 549 726 551 727 552 727 564 727 565 728 559 728 553 729 554 729 569 729 566 730 563 730 561 730 562 731 559 731 567 732 575 732 563 732 564 733 568 733 569 734 555 734 547 734 563 735 579 735 561 735 554
736 556 736 562 737 558 737 553 737 547 738 545 738 553 739 556 739 562 739 551 740 546 740 553 740 557 741 559 741 562 742 559 742 553 742 542 743 566 743 564 744 569 744 557 744 546 745 561 745 569 745 551 746 542 746 553 747 561 747 540 747 546
748 560 748 562 749 556 749 552 749 558 750 551 750 553 750 556 751 555 751 558 752 565 752 568 752 573 753 567 753 558 754 544 754 547 754 561 755 567 755 573 755 591 756 593 756 592 757 590 757 580 757 570 758 574 758 566 759 563 759 567 759 573
760 552 760 549 760 570 761 572 761 560 762 546 762 548 762 568 100 { m20} R 763 546 763 546 763 575 764 583 764 568 765 566 765 578 765 562 766 562 766 561 767 549 767 559 767 567 768 545 768 548 768 563 769 579 769 568 770 562 770 568 770 568 771
563 771 561 772 562 772 568 772 563 773 554 773 543 773 543 774 554 774 541 775 539 775 558 775 564 776 570 776 563 777 556 777 562 777 550 778 545 778 545 778 541 779 565 779 556 780 567 780 577 780 568 781 570 781 565 782 559 782 562 782 549 783
537 783 546 783 559 784 566 784 567 785 567 785 580 785 588 786 572 786 574 787 564 787 584 787 584 788 592 788 591 788 640 789 645 789 663 790 649 790 670 790 673 791 690 791 695 792 728 792 689 792 698 793 715 793 719 793 735 794 747 794 769 795
781 795 801 795 853 796 889 796 930 797 1005 797 1091 797 1146 798 1286 798 1457 798 1752 803 1557 804 1331 804 1174 805 1071 805 996 805 934 100 { m20} R 806 888 806 851 807 811 807 797 807 761 808 736 808 721 808 711 809 697 809 690 810 666 810
650 810 652 811 662 811 652 812 639 812 602 812 609 813 615 813 620 813 599 814 609 814 603 815 594 815 587 815 588 816 588 816 571 817 601 817 568 817 569 818 577 818 560 818 575 819 584 819 578 820 572 820 563 820 567 821 560 821 539 822 545 822
550 822 538 823 552 823 544 823 556 824 565 824 554 825 537 825 550 825 561 826 533 826 531 826 543 827 537 827 535 828 545 828 532 828 539 829 532 829 537 830 548 830 527 830 536 831 519 831 549 831 558 832 530 832 516 833 522 833 529 833 524 834
537 834 524 835 530 835 536 835 540 836 533 836 533 836 529 837 531 837 524 838 566 838 562 838 566 839 563 839 552 840 553 840 547 840 565 841 550 841 548 841 535 842 543 842 558 843 564 843 559 843 551 844 566 100 { m20} R 844 553 845 534 845 553
845 571 846 586 846 589 846 579 847 588 847 593 848 579 848 551 848 559 849 549 849 528 850 532 850 535 850 542 851 553 851 540 851 539 852 546 852 552 853 538 853 543 853 538 854 535 854 534 855 548 855 532 855 538 856 522 856 533 856 541 857 539
857 518 858 533 858 537 858 537 859 538 859 550 860 545 860 542 860 535 861 528 861 542 861 543 862 531 862 529 863 524 863 537 863 537 864 533 864 528 865 539 865 524 865 526 866 535 866 544 866 526 867 540 867 550 868 516 868 518 868 538 869 520
869 525 870 521 870 517 870 530 871 530 871 538 871 522 872 525 872 535 873 543 873 531 873 530 874 537 874 552 875 548 875 537 875 506 876 504 876 538 876 510 877 522 877 514 878 511 878 529 878 525 879 514 879 513 880 517 880 504 880 513 881 506
881 516 881 525 882 500 882 527 100 { m20} R 883 516 883 532 883 511 884 499 884 499 885 508 885 518 885 509 886 524 886 520 886 519 887 515 887 517 888 523 888 499 888 510 889 511 889 504 889 493 890 513 890 515 891 536 891 524 891 522 892 514 892
540 893 528 893 536 893 525 894 548 894 537 894 515 895 552 895 522 896 534 896 541 896 517 897 511 897 494 898 519 898 518 898 529 899 524 899 527 899 518 900 526 900 525 901 525 901 527 901 523 902 505 902 529 903 522 903 512 903 525 904 544 904
519 904 513 905 490 905 518 906 527 906 520 906 509 907 509 907 522 908 518 908 529 908 533 909 555 909 561 909 556 910 556 910 541 911 542 911 513 911 530 912 512 912 501 913 517 913 517 913 519 914 525 914 506 914 509 915 503 915 518 916 505 916
508 916 522 917 510 917 496 918 494 918 511 918 492 919 517 919 524 919 491 920 502 920 513 921 488 100 { m20} R 921 501 921 500 922 500 922 486 923 511 923 497 923 492 924 486 924 506 924 500 925 504 925 515 926 497 926 493 926 507 927 485 927 487
928 509 928 489 928 494 929 500 929 492 929 503 930 484 930 509 931 500 931 482 931 492 932 495 932 490 933 481 933 492 933 492 934 526 934 493 934 494 935 509 935 486 936 472 936 497 936 502 937 504 937 502 938 501 938 481 938 489 939 498 939 492
939 465 940 544 940 535 941 527 941 540 941 532 942 548 942 556 943 561 943 573 943 569 944 544 944 539 944 527 945 549 945 534 946 525 946 506 946 503 947 520 947 515 948 518 948 526 948 518 949 503 949 517 949 508 950 513 950 514 951 507 951 504
951 511 952 498 952 494 952 510 953 523 953 517 954 496 954 510 954 513 955 539 955 502 956 513 956 515 956 509 957 505 957 507 957 535 958 505 958 506 959 524 959 509 100 { m20} R 959 507 960 498 960 502 961 508 961 501 961 501 962 493 962 497 962
526 963 498 963 510 964 486 964 512 964 516 965 490 965 488 966 510 966 526 966 504 967 503 967 502 967 507 968 511 968 505 969 511 969 501 969 514 970 505 970 494 971 498 971 490 971 521 972 484 972 506 972 518 973 511 973 512 974 493 974 502 974
498 975 502 975 504 976 501 976 502 976 512 977 514 977 503 977 508 978 508 978 515 979 494 979 487 979 498 980 513 980 497 981 511 981 505 981 508 982 523 982 505 982 513 983 531 983 548 984 592 984 603 984 641 985 675 985 677 986 677 986 627 986
610 987 585 987 537 987 549 988 502 988 497 989 498 989 507 989 507 990 487 990 490 991 496 991 514 991 489 992 496 992 474 992 471 993 494 993 500 994 483 994 475 994 483 995 468 995 484 996 496 996 494 996 497 997 487 997 475 997 491 100 { m20} R
998 487 998 473 999 471 999 487 999 480 1000 480 1000 479 1001 473 1001 480 1001 480 1002 495 1002 492 1002 480 1003 493 1003 476 1004 477 1004 477 1004 507 1005 497 1005 504 1006 496 1006 504 1006 522 1007 536 1007 556 1007 599 1008 636 1008 636
1009 633 1009 608 1009 577 1010 531 1010 510 1011 507 1011 498 1011 515 1012 498 1012 487 1012 481 1013 498 1013 489 1014 487 1014 472 1014 466 1015 477 1015 483 1015 465 1016 470 1016 469 1017 476 1017 474 1017 461 1018 472 1018 472 1019 475 1019
476 1019 475 1020 481 1020 479 1020 481 1021 467 1021 481 1022 488 1022 467 1022 506 1023 482 1023 469 1024 457 1024 457 1024 459 1025 470 1025 459 1025 465 1026 472 1026 467 1027 461 1027 467 1027 477 1028 459 1028 470 1029 506 1029 477 1029 468
1030 460 1030 467 1030 465 1031 482 1031 490 1032 482 1032 483 1032 476 1033 482 1033 477 1034 476 1034 461 1034 490 1035 495 1035 520 1035 514 1036 529 100 { m20} R 1036 514 1037 526 1037 518 1037 503 1038 488 1038 504 1039 512 1039 507 1039 494
1040 501 1040 480 1040 494 1041 501 1041 499 1042 491 1042 480 1042 493 1043 490 1043 489 1044 477 1044 486 1044 483 1045 480 1045 497 1045 491 1046 474 1046 500 1047 489 1047 488 1047 495 1048 480 1048 480 1049 489 1049 483 1049 460 1050 487 1050
487 1050 473 1051 465 1051 500 1052 484 1052 475 1052 485 1053 485 1053 478 1054 488 1054 486 1054 471 1055 477 1055 482 1055 492 1056 480 1056 477 1057 471 1057 498 1057 493 1058 474 1058 477 1059 478 1059 486 1059 484 1060 484 1060 492 1060 476
1061 476 1061 482 1062 477 1062 469 1062 474 1063 469 1063 462 1064 485 1064 480 1064 471 1065 466 1065 474 1065 493 1066 472 1066 482 1067 504 1067 481 1067 479 1068 489 1068 505 1069 491 1069 487 1069 498 1070 513 1070 532 1070 531 1071 529 1071
520 1072 524 1072 505 1072 497 1073 503 1073 492 1074 501 1074 481 1074 490 100 { m20} R 1075 497 1075 493 1075 498 1076 490 1076 485 1077 495 1077 496 1077 500 1078 505 1078 520 1078 499 1079 513 1079 514 1080 486 1080 500 1080 492 1081 494 1081
515 1082 516 1082 523 1082 494 1083 521 1083 515 1083 512 1084 536 1084 526 1085 528 1085 536 1085 542 1086 549 1086 544 1087 554 1087 556 1087 545 1088 574 1088 561 1088 563 1089 591 1089 581 1090 597 1090 598 1090 598 1091 618 1091 638 1092 647
1092 664 1092 671 1093 689 1093 728 1093 757 1094 773 1094 789 1095 825 1095 882 1095 945 1096 1012 1096 1082 1097 1191 1097 1310 1097 1522 1098 1822 1103 1671 1103 1495 1104 1387 1104 1336 1105 1268 1105 1239 1105 1221 1106 1228 1106 1267 1107
1343 1107 1443 1107 1569 1108 1746 1113 1572 1113 1352 1114 1180 1114 1063 1115 989 1115 928 1115 868 1116 809 1116 757 1117 722 1117 704 1117 672 1118 652 1118 650 1118 617 1119 602 1119 601 1120 580 1120 574 1120 567 1121 551 1121 541 1122 541
1122 533 1122 528 1123 517 100 { m20} R 1123 512 1123 510 1124 532 1124 503 1125 505 1125 503 1125 489 1126 483 1126 464 1127 481 1127 485 1127 470 1128 455 1128 455 1128 452 1129 451 1129 445 1130 446 1130 446 1130 439 1131 475 1131 474 1132 452
1132 441 1132 438 1133 448 1133 452 1133 466 1134 472 1134 468 1135 460 1135 456 1135 456 1136 450 1136 426 1137 454 1137 473 1137 472 1138 462 1138 454 1138 447 1139 445 1139 460 1140 444 1140 444 1140 437 1141 444 1141 458 1141 462 1142 458 1142
449 1143 454 1143 454 1143 476 1144 454 1144 442 1145 455 1145 450 1145 455 1146 448 1146 454 1146 454 1147 458 1147 463 1148 453 1148 441 1148 454 1149 463 1149 448 1150 448 1150 443 1150 450 1151 450 1151 430 1151 438 1152 437 1152 446 1153 442
1153 438 1153 445 1154 438 1154 431 1155 442 1155 447 1155 451 1156 444 1156 452 1156 455 1157 463 1157 466 1158 475 1158 476 1158 487 1159 488 1159 473 1160 473 1160 466 1160 448 1161 444 1161 438 100 { m20} R 1161 444 1162 443 1162 458 1163 471
1163 460 1163 462 1164 460 1164 457 1165 450 1165 447 1165 439 1166 443 1166 425 1166 422 1167 428 1167 432 1168 441 1168 424 1168 419 1169 430 1169 414 1170 412 1170 424 1170 426 1171 439 1171 430 1171 424 1172 421 1172 427 1173 424 1173 416 1173
416 1174 427 1174 425 1175 418 1175 419 1175 423 1176 417 1176 415 1176 421 1177 425 1177 417 1178 416 1178 420 1178 410 1179 404 1179 419 1180 408 1180 411 1180 419 1181 413 1181 428 1181 419 1182 414 1182 411 1183 409 1183 405 1183 422 1184 428
1184 431 1185 398 1185 395 1185 398 1186 388 1186 413 1186 422 1187 428 1187 438 1188 432 1188 418 1188 413 1189 417 1189 419 1190 429 1190 457 1190 451 1191 425 1191 425 1191 414 1192 409 1192 413 1193 402 1193 397 1193 410 1194 418 1194 408 1195
407 1195 418 1195 432 1196 441 1196 427 1196 415 1197 409 1197 400 1198 413 1198 434 1198 418 1199 416 1199 426 1200 431 100 { m20} R 1200 412 1200 400 1201 426 1201 416 1201 422 1202 430 1202 430 1203 429 1203 425 1203 436 1204 428 1204 420 1204
422 1205 428 1205 429 1206 428 1206 425 1206 439 1207 432 1207 414 1208 411 1208 402 1208 412 1209 411 1209 427 1209 426 1210 420 1210 426 1211 423 1211 425 1211 417 1212 419 1212 413 1213 425 1213 424 1213 425 1214 439 1214 428 1214 454 1215 457
1215 443 1216 459 1216 438 1216 442 1217 438 1217 421 1218 417 1218 412 1218 415 1219 415 1219 406 1219 411 1220 410 1220 412 1221 410 1221 408 1221 407 1222 417 1222 412 1223 412 1223 406 1223 396 1224 412 1224 421 1224 410 1225 416 1225 395 1226
414 1226 433 1226 422 1227 412 1227 405 1228 411 1228 419 1228 415 1229 405 1229 412 1229 407 1230 409 1230 395 1231 418 1231 411 1231 405 1232 407 1232 411 1233 408 1233 411 1233 404 1234 403 1234 411 1234 389 1235 400 1235 419 1236 409 1236 433
1236 423 1237 410 1237 415 1238 425 1238 405 100 { m20} R 1238 401 1239 435 1239 424 1239 427 1240 424 1240 414 1241 410 1241 420 1241 410 1242 419 1242 414 1243 401 1243 419 1243 423 1244 409 1244 414 1244 406 1245 417 1245 405 1246 429 1246 431
1246 418 1247 417 1247 408 1248 407 1248 404 1248 409 1249 413 1249 420 1249 408 1250 428 1250 422 1251 414 1251 423 1251 435 1252 435 1252 412 1253 428 1253 436 1253 415 1254 434 1254 420 1254 421 1255 435 1255 415 1256 438 1256 452 1256 443 1257
451 1257 436 1258 446 1258 422 1258 419 1259 428 1259 430 1259 419 1260 420 1260 404 1261 428 1261 413 1261 415 1262 424 1262 423 1263 407 1263 412 1263 409 1264 424 1264 410 1264 419 1265 421 1265 416 1266 420 1266 418 1266 430 1267 421 1267 424
1267 419 1268 400 1268 401 1269 424 1269 422 1269 433 1270 424 1270 420 1271 416 1271 408 1271 404 1272 416 1272 419 1272 398 1273 423 1273 408 1274 401 1274 407 1274 417 1275 399 1275 407 1276 409 1276 416 1276 417 100 { m20} R 1277 414 1277 408
1277 414 1278 414 1278 411 1279 424 1279 422 1279 424 1280 430 1280 437 1281 444 1281 437 1281 433 1282 434 1282 422 1282 427 1283 431 1283 443 1284 417 1284 424 1284 433 1285 471 1285 501 1286 539 1286 580 1286 589 1287 548 1287 480 1287 449 1288
430 1288 432 1289 468 1289 423 1289 386 1290 401 1290 410 1291 365 1291 393 1291 415 1292 417 1292 387 1292 386 1293 408 1293 367 1294 419 1294 397 1294 386 1295 372 1295 402 1296 393 1296 411 1296 396 1297 399 1297 379 1297 403 1298 399 1298 392
1299 383 1299 392 1299 403 1300 393 1300 399 1301 412 1301 381 1301 409 1302 395 1302 411 1302 411 1303 423 1303 404 1304 417 1304 409 1304 410 1305 412 1305 415 1306 412 1306 413 1306 432 1307 416 1307 412 1307 415 1308 423 1308 426 1309 413 1309
403 1309 434 1310 421 1310 423 1311 430 1311 424 1311 420 1312 425 1312 438 1312 422 1313 424 1313 419 1314 419 1314 428 1314 402 1315 430 100 { m20} R 1315 430 1316 427 1316 428 1316 415 1317 417 1317 419 1317 425 1318 422 1318 429 1319 429 1319
423 1319 415 1320 433 1320 423 1321 428 1321 446 1321 458 1322 453 1322 454 1322 450 1323 454 1323 469 1324 495 1324 510 1324 532 1325 592 1325 732 1326 1067 1326 1606 1327 1534 1328 1080 1328 811 1329 648 1329 579 1329 547 1330 512 1330 492 1330
495 1331 478 1331 482 1332 458 1332 465 1332 452 1333 468 1333 464 1334 457 1334 465 1334 459 1335 456 1335 455 1335 440 1336 454 1336 458 1337 468 1337 477 1337 487 1338 482 1338 502 1339 497 1339 505 1339 526 1340 564 1340 616 1340 669 1341 738
1341 841 1342 1007 1342 1404 1345 1544 1345 1009 1346 793 1346 689 1347 608 1347 575 1347 551 1348 526 1348 534 1349 522 1349 502 1349 470 1350 459 1350 449 1350 466 1351 447 1351 440 1352 436 1352 436 1352 456 1353 452 1353 443 1354 446 1354 441
1354 439 1355 419 1355 450 1355 427 1356 432 1356 431 1357 431 1357 441 100 { m20} R 1357 415 1358 419 1358 432 1359 436 1359 438 1359 416 1360 429 1360 419 1360 411 1361 413 1361 410 1362 412 1362 402 1362 399 1363 412 1363 420 1364 420 1364 421
1364 406 1365 424 1365 410 1365 407 1366 403 1366 404 1367 409 1367 407 1367 406 1368 414 1368 404 1369 409 1369 402 1369 408 1370 429 1370 393 1370 382 1371 417 1371 413 1372 401 1372 395 1372 398 1373 409 1373 386 1374 400 1374 389 1374 410 1375
396 1375 410 1375 398 1376 400 1376 399 1377 397 1377 399 1377 395 1378 404 1378 397 1379 384 1379 394 1379 393 1380 401 1380 387 1380 389 1381 390 1381 394 1382 392 1382 394 1382 410 1383 391 1383 398 1384 380 1384 379 1384 388 1385 392 1385 397
1385 406 1386 384 1386 388 1387 388 1387 390 1387 393 1388 374 1388 391 1389 381 1389 395 1389 377 1390 376 1390 379 1390 373 1391 378 1391 399 1392 386 1392 381 1392 385 1393 368 1393 367 1394 376 1394 395 1394 385 1395 378 1395 380 1395 367 100 {
m20} R 1396 380 1396 380 1397 374 1397 360 1397 383 1398 382 1398 378 1398 381 1399 388 1399 383 1400 382 1400 384 1400 400 1401 393 1401 388 1402 376 1402 392 1402 379 1403 386 1403 388 1403 386 1404 389 1404 397 1405 398 1405 395 1405 397 1406
395 1406 390 1407 381 1407 376 1407 395 1408 388 1408 384 1408 402 1409 390 1409 390 1410 391 1410 400 1410 405 1411 381 1411 385 1412 394 1412 413 1412 393 1413 393 1413 384 1413 383 1414 387 1414 391 1415 381 1415 378 1415 384 1416 383 1416 394
1417 392 1417 408 1417 398 1418 393 1418 381 1418 385 1419 389 1419 378 1420 379 1420 375 1420 372 1421 376 1421 390 1422 373 1422 382 1422 390 1423 383 1423 381 1423 397 1424 393 1424 395 1425 386 1425 382 1425 383 1426 402 1426 392 1427 378 1427
390 1427 387 1428 393 1428 405 1428 410 1429 387 1429 379 1430 379 1430 383 1430 373 1431 378 1431 379 1432 372 1432 376 1432 367 1433 370 1433 375 1433 391 1434 400 100 { m20} R 1434 404 1435 387 1435 378 1435 376 1436 374 1436 375 1437 379 1437
396 1437 382 1438 361 1438 367 1438 375 1439 381 1439 380 1440 372 1440 372 1440 369 1441 371 1441 372 1442 376 1442 368 1442 374 1443 394 1443 395 1443 372 1444 360 1444 365 1445 377 1445 389 1445 376 1446 380 1446 365 1447 358 1447 373 1447 389
1448 395 1448 409 1448 400 1449 383 1449 383 1450 389 1450 386 1450 396 1451 408 1451 410 1452 390 1452 397 1452 400 1453 403 1453 394 1453 395 1454 400 1454 399 1455 399 1455 394 1455 395 1456 389 1456 400 1457 399 1457 392 1457 405 1458 399 1458
405 1458 412 1459 401 1459 401 1460 393 1460 392 1460 392 1461 400 1461 411 1461 401 1462 403 1462 404 1463 395 1463 389 1463 384 1464 385 1464 383 1465 381 1465 398 1465 405 1466 405 1466 388 1466 384 1467 405 1467 398 1468 384 1468 382 1468 385
1469 397 1469 397 1470 393 1470 393 1470 391 1471 385 1471 393 1471 390 1472 397 1472 400 100 { m20} R 1473 395 1473 392 1473 405 1474 395 1474 391 1475 407 1475 409 1475 398 1476 402 1476 391 1476 390 1477 390 1477 392 1478 384 1478 390 1478 386
1479 374 1479 380 1480 395 1480 390 1480 379 1481 379 1481 391 1481 392 1482 391 1482 386 1483 380 1483 393 1483 394 1484 397 1484 395 1485 399 1485 398 1485 392 1486 393 1486 397 1486 395 1487 392 1487 385 1488 384 1488 383 1488 384 1489 382 1489
393 1490 393 1490 383 1490 393 1491 380 1491 395 1491 405 1492 396 1492 394 1493 401 1493 408 1493 417 1494 421 1494 416 1495 411 1495 408 1495 406 1496 415 1496 430 1496 412 1497 405 1497 404 1498 401 1498 406 1498 415 1499 416 1499 394 1500 396
1500 408 1500 405 1501 404 1501 421 1501 422 1502 417 1502 407 1503 413 1503 415 1503 414 1504 403 1504 408 1505 407 1505 402 1505 407 1506 411 1506 409 1506 419 1507 418 1507 418 1508 423 1508 419 1508 425 1509 417 1509 418 1510 421 1510 410 1510
411 1511 427 100 { m20} R 1511 431 1511 422 1512 417 1512 419 1513 431 1513 410 1513 415 1514 428 1514 431 1515 420 1515 422 1515 426 1516 425 1516 429 1516 428 1517 417 1517 427 1518 443 1518 440 1518 441 1519 442 1519 431 1519 442 1520 444 1520
433 1521 432 1521 435 1521 445 1522 453 1522 449 1523 446 1523 450 1523 464 1524 457 1524 457 1524 469 1525 469 1525 472 1526 472 1526 476 1526 497 1527 513 1527 505 1528 503 1528 512 1528 516 1529 516 1529 535 1529 558 1530 569 1530 589 1531 622
1531 654 1531 675 1532 677 1532 701 1533 770 1533 849 1533 911 1534 977 1534 1086 1534 1249 1535 1491 1535 1865 1539 1745 1539 1402 1540 1163 1540 1026 1541 929 1541 846 1541 795 1542 750 1542 701 1543 662 1543 627 1543 606 1544 583 1544 554 1544
534 1545 551 1545 563 1546 538 1546 522 1546 515 1547 514 1547 510 1548 497 1548 493 1548 475 1549 461 1549 469 1549 483 1550 487 1550 491 1551 490 1551 475 1551 469 1552 473 1552 474 1553 466 100 { m20} R 1553 456 1553 458 1554 472 1554 465 1554
461 1555 457 1555 444 1556 445 1556 453 1556 450 1557 447 1557 446 1558 442 1558 432 1558 439 1559 443 1559 435 1559 435 1560 436 1560 441 1561 447 1561 443 1561 431 1562 434 1562 434 1563 419 1563 425 1563 435 1564 432 1564 423 1564 428 1565 433
1565 432 1566 423 1566 418 1566 412 1567 414 1567 438 1568 441 1568 434 1568 434 1569 426 1569 429 1569 422 1570 417 1570 430 1571 434 1571 440 1571 433 1572 428 1572 436 1573 442 1573 460 1573 490 1574 514 1574 509 1574 505 1575 507 1575 491 1576
489 1576 484 1576 448 1577 445 1577 456 1578 434 1578 418 1578 426 1579 425 1579 416 1579 410 1580 415 1580 415 1581 406 1581 393 1581 390 1582 408 1582 412 1582 409 1583 410 1583 406 1584 404 1584 404 1584 407 1585 405 1585 402 1586 406 1586 412
1586 414 1587 409 1587 407 1587 398 1588 398 1588 416 1589 420 1589 414 1589 402 1590 394 1590 394 1591 400 1591 395 100 { m20} R 1591 395 1592 400 1592 396 1592 402 1593 405 1593 399 1594 404 1594 398 1594 387 1595 395 1595 402 1596 407 1596 402
1596 395 1597 398 1597 397 1597 395 1598 407 1598 417 1599 410 1599 411 1599 422 1600 409 1600 411 1601 425 1601 427 1601 413 1602 407 1602 407 1602 414 1603 418 1603 416 1604 414 1604 406 1604 406 1605 409 1605 411 1606 413 1606 414 1606 414 1607
399 1607 396 1607 404 1608 404 1608 413 1609 430 1609 415 1609 391 1610 399 1610 394 1611 401 1611 407 1611 420 1612 433 1612 410 1612 405 1613 416 1613 412 1614 401 1614 394 1614 399 1615 398 1615 408 1616 397 1616 397 1616 391 1617 391 1617 396
1617 412 1618 405 1618 397 1619 400 1619 404 1619 402 1620 411 1620 407 1621 410 1621 409 1621 407 1622 396 1622 397 1622 398 1623 400 1623 396 1624 391 1624 401 1624 407 1625 398 1625 396 1626 398 1626 394 1626 386 1627 390 1627 396 1627 393 1628
399 1628 392 1629 405 1629 418 1629 409 100 { m20} R 1630 399 1630 409 1631 408 1631 387 1631 373 1632 385 1632 391 1632 382 1633 387 1633 401 1634 415 1634 386 1634 374 1635 380 1635 391 1636 398 1636 388 1636 389 1637 398 1637 393 1637 385 1638
396 1638 392 1639 393 1639 402 1639 399 1640 404 1640 392 1641 396 1641 401 1641 393 1642 391 1642 384 1642 400 1643 393 1643 385 1644 391 1644 413 1644 433 1645 430 1645 420 1645 415 1646 421 1646 430 1647 423 1647 419 1647 425 1648 421 1648 428
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1701 708 1701 724 1702 798 1702 863 1702 979 1703 1149 1703 1406 1704 1802 1707 1517 1707 1242 1708 1053 1708 944 1708 843 1709 769 1709 709 100 { m20} R 1710 708 1710 665 1710 655 1711 663 1711 655 1712 613 1712 614 1712 611 1713 626 1713 629 1713
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} R 1788 389 1788 391 1789 396 1789 402 1790 379 1790 378 1790 381 1791 398 1791 383 1791 392 1792 398 1792 391 1793 405 1793 432 1793 432 1794 435 1794 409 1795 411 1795 418 1795 437 1796 428 1796 417 1796 409 1797 407 1797 396 1798 417 1798 385
1798 404 1799 398 1799 404 1800 387 1800 380 1800 395 1801 403 1801 411 1801 406 1802 396 1802 392 1803 388 1803 392 1803 397 1804 403 1804 409 1805 405 1805 411 1805 412 1806 419 1806 386 1806 396 1807 385 1807 412 1808 400 1808 402 1808 406 1809
400 1809 373 1810 405 1810 373 1810 340 1811 371 1811 391 1811 386 1812 385 1812 399 1813 407 1813 402 1813 409 1814 395 1814 414 1815 400 1815 395 1815 398 1816 396 1816 399 1816 403 1817 409 1817 413 1818 402 1818 400 1818 396 1819 400 1819 403
1820 401 1820 406 1820 405 1821 412 1821 421 1821 411 1822 402 1822 412 1823 404 1823 408 1823 409 1824 409 1824 416 1825 404 1825 410 1825 411 1826 404 1826 405 100 { m20} R 1826 402 1827 397 1827 397 1828 392 1828 395 1828 404 1829 402 1829 410
1830 405 1830 408 1830 401 1831 406 1831 409 1831 402 1832 412 1832 405 1833 411 1833 421 1833 411 1834 405 1834 405 1835 404 1835 404 1835 399 1836 416 1836 409 1836 423 1837 418 1837 408 1838 405 1838 408 1838 414 1839 414 1839 415 1839 415 1840
423 1840 432 1841 420 1841 423 1841 432 1842 441 1842 430 1843 440 1843 439 1843 446 1844 448 1844 448 1844 438 1845 432 1845 446 1846 465 1846 451 1846 444 1847 449 1847 471 1848 473 1848 467 1848 492 1849 506 1849 520 1849 518 1850 530 1850 543
1851 568 1851 600 1851 646 1852 689 1852 760 1853 886 1853 1071 1853 1413 1856 1451 1856 1104 1857 904 1857 792 1858 731 1858 689 1858 648 1859 621 1859 597 1859 583 1860 575 1860 578 1861 581 1861 599 1861 617 1862 608 1862 606 1863 625 1863 612
1863 612 1864 610 1864 607 1864 613 1865 606 1865 631 1866 635 1866 637 1866 656 1867 675 100 { m20} R 1867 700 1868 720 1868 753 1868 788 1869 835 1869 912 1869 994 1870 1078 1870 1235 1871 1463 1871 1846 1875 1556 1875 1372 1876 1275 1876 1257
1876 1271 1877 1370 1877 1599 1880 1443 1881 1145 1881 979 1881 854 1882 781 1882 717 1883 681 1883 648 1883 608 1884 590 1884 578 1884 562 1885 547 1885 549 1886 521 1886 513 1886 508 1887 499 1887 493 1888 497 1888 487 1888 486 1889 492 1889 474
1889 473 1890 465 1890 465 1891 466 1891 457 1891 450 1892 452 1892 449 1893 434 1893 430 1893 438 1894 437 1894 428 1894 429 1895 435 1895 432 1896 430 1896 430 1896 448 1897 431 1897 423 1898 421 1898 413 1898 415 1899 426 1899 425 1899 412 1900
415 1900 418 1901 415 1901 415 1901 408 1902 405 1902 408 1902 405 1903 411 1903 413 1904 402 1904 400 1904 402 1905 405 1905 409 1906 411 1906 415 1906 406 1907 408 1907 413 1907 414 1908 402 1908 391 1909 400 1909 407 1909 405 1910 406 1910 417
1911 422 1911 424 1911 415 100 { m20} R 1912 416 1912 412 1912 386 1913 396 1913 418 1914 410 1914 405 1914 407 1915 413 1915 417 1916 412 1916 410 1916 408 1917 405 1917 404 1917 404 1918 395 1918 400 1919 410 1919 408 1919 396 1920 409 1920 414
1921 394 1921 390 1921 392 1922 388 1922 402 1922 409 1923 408 1923 407 1924 418 1924 405 1924 402 1925 403 1925 399 1926 396 1926 388 1926 403 1927 418 1927 413 1927 401 42 { m20} R 6 lw 346 418 m 3 Y s 340 421 m 12 X s 346 395 m -2 Y s 340 393 m
12 X s 347 415 m 1 Y s 341 416 m 11 X s 347 393 m -1 Y s 341 392 m 11 X s 347 414 m 5 Y s 341 419 m 12 X s 347 391 m -6 Y s 341 385 m 12 X s 348 405 m 1 Y s 342 406 m 12 X s 348 382 m s 342 382 m 12 X s 350 432 m s 344 432 m 11 X s 350 409 m -1 Y s
344 408 m 11 X s 352 423 m 2 Y s 346 425 m 11 X s 352 401 m -3 Y s 346 398 m 11 X s 354 400 m 4 Y s 348 404 m 12 X s 354 377 m -5 Y s 348 372 m 12 X s 356 436 m 2 Y s 350 438 m 12 X s 356 413 m -2 Y s 350 411 m 12 X s 358 437 m 1 Y s 353 438 m 11 X
s 358 414 m -1 Y s 353 413 m 11 X s 361 437 m 2 Y s 356 439 m 11 X s 361 415 m -2 Y s 356 413 m 11 X s 362 430 m 2 Y s 357 432 m 11 X s 362 408 m -2 Y s 357 406 m 11 X s 366 413 m 4 Y s 360 417 m 12 X s 366 390 m -4 Y s 360 386 m 12 X s 367 431 m 4
Y s 361 435 m 12 X s 367 408 m -4 Y s 361 404 m 12 X s 371 424 m s 366 424 m 11 X s 371 401 m -1 Y s 366 400 m 11 X s 372 426 m 2 Y s 366 428 m 11 X s 372 403 m -2 Y s 366 401 m 11 X s 372 422 m 3 Y s 366 425 m 12 X s 372 400 m -3 Y s 366 397 m 12
X s 374 431 m 2 Y s 369 433 m 11 X s 374 408 m -2 Y s 369 406 m 11 X s 377 414 m 4 Y s 371 418 m 11 X s 377 391 m -3 Y s 371 388 m 11 X s 377 438 m 8 Y s 371 446 m 12 X s 377 416 m -8 Y s 371 408 m 12 X s 379 411 m 1 Y s 373 412 m 11 X s 379 388 m
-1 Y s 373 387 m 11 X s 379 410 m s 373 410 m 12 X s 379 387 m s 373 387 m 12 X s 381 444 m 7 Y s 376 451 m 11 X s 381 421 m -7 Y s 376 414 m 11 X s 388 440 m 11 Y s 382 451 m 11 X s 388 418 m -11 Y s 382 407 m 11 X s 396 465 m 7 Y s 391 472 m 11 X
s 396 442 m -7 Y s 391 435 m 11 X s 404 443 m 1 Y s 399 444 m 11 X s 404 420 m -1 Y s 399 419 m 11 X s 406 459 m 8 Y s 400 467 m 12 X s 406 436 m -8 Y s 400 428 m 12 X s 408 458 m 3 Y s 402 461 m 11 X s 408 435 m -3 Y s 402 432 m 11 X s 412 448 m 3
Y s 406 451 m 11 X s 412 425 m -2 Y s 406 423 m 11 X s 412 436 m 1 Y s 406 437 m 12 X s 412 413 m -1 Y s 406 412 m 12 X s 413 439 m 6 Y s 407 445 m 12 X s 413 416 m -7 Y s 407 409 m 12 X s 414 447 m 5 Y s 408 452 m 11 X s 414 425 m -5 Y s 408 420 m
11 X s 415 458 m 1 Y s 409 459 m 11 X s 415 435 m -1 Y s 409 434 m 11 X s 424 506 m 8 Y s 418 514 m 12 X s 424 483 m -7 Y s 418 476 m 12 X s 424 457 m 6 Y s 419 463 m 11 X s 424 434 m -6 Y s 419 428 m 11 X s 426 465 m 3 Y s 420 468 m 12 X s 426 442
m -3 Y s 420 439 m 12 X s 429 460 m 9 Y s 424 469 m 11 X s 429 437 m -9 Y s 424 428 m 11 X s 430 457 m s 424 457 m 11 X s 430 434 m -1 Y s 424 433 m 11 X s 430 468 m 10 Y s 425 478 m 11 X s 430 445 m -9 Y s 425 436 m 11 X s 431 460 m 2 Y s 425 462
m 12 X s 431 437 m -2 Y s 425 435 m 12 X s 434 445 m 4 Y s 428 449 m 11 X s 434 423 m -4 Y s 428 419 m 11 X s 434 470 m 2 Y s 428 472 m 12 X s 434 448 m -2 Y s 428 446 m 12 X s 435 469 m 6 Y s 429 475 m 11 X s 435 446 m -7 Y s 429 439 m 11 X s 435
466 m 2 Y s 430 468 m 11 X s 435 443 m -2 Y s 430 441 m 11 X s 436 454 m 5 Y s 431 459 m 11 X s 436 432 m -6 Y s 431 426 m 11 X s 437 469 m 5 Y s 432 474 m 11 X s 437 446 m -5 Y s 432 441 m 11 X s 440 465 m 6 Y s 434 471 m 11 X s 440 442 m -6 Y s
434 436 m 11 X s 448 470 m 3 Y s 442 473 m 12 X s 448 448 m -3 Y s 442 445 m 12 X s 449 453 m 15 Y s 444 468 m 11 X s 449 430 m -15 Y s 444 415 m 11 X s 450 474 m 1 Y s 444 475 m 11 X s 450 451 m s 444 451 m 11 X s 455 451 m s 450 451 m 11 X s 455
429 m s 450 429 m 11 X s 457 456 m 4 Y s 452 460 m 11 X s 457 434 m -4 Y s 452 430 m 11 X s 458 448 m 2 Y s 452 450 m 11 X s 458 425 m -2 Y s 452 423 m 11 X s 458 469 m 1 Y s 452 470 m 12 X s 458 447 m -1 Y s 452 446 m 12 X s 464 458 m 2 Y s 459
460 m 11 X s 464 435 m -1 Y s 459 434 m 11 X s 467 473 m 1 Y s 461 474 m 12 X s 467 451 m -1 Y s 461 450 m 12 X s 468 451 m 3 Y s 463 454 m 11 X s 468 428 m -3 Y s 463 425 m 11 X s 470 468 m 1 Y s 464 469 m 11 X s 470 445 m -1 Y s 464 444 m 11 X s
473 441 m 1 Y s 468 442 m 11 X s 473 419 m -1 Y s 468 418 m 11 X s 474 475 m 1 Y s 468 476 m 12 X s 474 452 m -1 Y s 468 451 m 12 X s 480 471 m 1 Y s 474 472 m 11 X s 480 448 m -1 Y s 474 447 m 11 X s 483 467 m 6 Y s 478 473 m 11 X s 483 445 m -5 Y
s 478 440 m 11 X s 492 474 m 3 Y s 486 477 m 12 X s 492 452 m -3 Y s 486 449 m 12 X s 496 467 m 6 Y s 490 473 m 11 X s 496 445 m -6 Y s 490 439 m 11 X s 496 480 m 1 Y s 490 481 m 12 X s 496 457 m -1 Y s 490 456 m 12 X s 501 470 m 2 Y s 495 472 m 11
X s 501 447 m -1 Y s 495 446 m 11 X s 502 473 m 3 Y s 496 476 m 12 X s 502 451 m -3 Y s 496 448 m 12 X s 511 465 m 1 Y s 505 466 m 11 X s 511 442 m -1 Y s 505 441 m 11 X s 513 468 m 1 Y s 507 469 m 12 X s 513 446 m -1 Y s 507 445 m 12 X s 515 459 m
s 510 459 m 11 X s 515 436 m s 510 436 m 11 X s 516 463 m 1 Y s 510 464 m 11 X s 516 440 m -1 Y s 510 439 m 11 X s 516 469 m 1 Y s 511 470 m 11 X s 516 446 m -2 Y s 511 444 m 11 X s 523 471 m 3 Y s 518 474 m 11 X s 523 448 m -2 Y s 518 446 m 11 X s
524 496 m 7 Y s 518 503 m 11 X s 524 473 m -7 Y s 518 466 m 11 X s 524 492 m 2 Y s 518 494 m 12 X s 524 469 m -2 Y s 518 467 m 12 X s 525 492 m s 520 492 m 11 X s 525 469 m s 520 469 m 11 X s 528 476 m 1 Y s 523 477 m 11 X s 528 453 m -2 Y s 523
451 m 11 X s 532 471 m 1 Y s 526 472 m 12 X s 532 448 m -1 Y s 526 447 m 12 X s 533 481 m s 527 481 m 11 X s 533 458 m -1 Y s 527 457 m 11 X s 538 461 m 2 Y s 533 463 m 11 X s 538 438 m -1 Y s 533 437 m 11 X s 539 485 m 5 Y s 533 490 m 11 X s 539
462 m -6 Y s 533 456 m 11 X s 546 482 m 3 Y s 540 485 m 11 X s 546 459 m -2 Y s 540 457 m 11 X s 546 482 m s 540 482 m 12 X s 546 459 m -1 Y s 540 458 m 12 X s 550 518 m 4 Y s 544 522 m 12 X s 550 495 m -4 Y s 544 491 m 12 X s 551 543 m s 546 543 m
11 X s 551 520 m -1 Y s 546 519 m 11 X s 556 490 m s 550 490 m 12 X s 556 467 m s 550 467 m 12 X s 563 472 m 2 Y s 557 474 m 11 X s 563 449 m -2 Y s 557 447 m 11 X s 563 479 m 1 Y s 557 480 m 12 X s 563 456 m -2 Y s 557 454 m 12 X s 568 481 m 1 Y s
563 482 m 11 X s 568 458 m -1 Y s 563 457 m 11 X s 575 484 m 2 Y s 570 486 m 11 X s 575 461 m -2 Y s 570 459 m 11 X s 576 472 m 4 Y s 570 476 m 11 X s 576 449 m -3 Y s 570 446 m 11 X s 576 474 m 1 Y s 570 475 m 12 X s 576 451 m -1 Y s 570 450 m 12
X s 577 490 m 4 Y s 571 494 m 12 X s 577 468 m -4 Y s 571 464 m 12 X s 578 494 m 3 Y s 572 497 m 11 X s 578 471 m -3 Y s 572 468 m 11 X s 579 485 m 4 Y s 573 489 m 11 X s 579 462 m -4 Y s 573 458 m 11 X s 579 487 m 3 Y s 573 490 m 12 X s 579 465 m
-3 Y s 573 462 m 12 X s 579 488 m s 574 488 m 11 X s 579 465 m s 574 465 m 11 X s 580 489 m 3 Y s 575 492 m 11 X s 580 467 m -3 Y s 575 464 m 11 X s 581 497 m 7 Y s 575 504 m 11 X s 581 475 m -7 Y s 575 468 m 11 X s 581 504 m s 575 504 m 12 X s 581
481 m s 575 481 m 12 X s 582 487 m 3 Y s 576 490 m 11 X s 582 464 m -3 Y s 576 461 m 11 X s 583 486 m 6 Y s 577 492 m 11 X s 583 463 m -5 Y s 577 458 m 11 X s 583 493 m 5 Y s 577 498 m 12 X s 583 470 m -5 Y s 577 465 m 12 X s 583 495 m 1 Y s 578
496 m 11 X s 583 472 m -1 Y s 578 471 m 11 X s 586 490 m 3 Y s 580 493 m 12 X s 586 467 m -3 Y s 580 464 m 12 X s 586 492 m 4 Y s 581 496 m 11 X s 586 469 m -5 Y s 581 464 m 11 X s 588 490 m 2 Y s 582 492 m 12 X s 588 467 m -2 Y s 582 465 m 12 X s
588 490 m s 583 490 m 11 X s 588 467 m s 583 467 m 11 X s 590 490 m 1 Y s 584 491 m 12 X s 590 467 m -2 Y s 584 465 m 12 X s 591 483 m 3 Y s 585 486 m 12 X s 591 460 m -2 Y s 585 458 m 12 X s 591 472 m 6 Y s 586 478 m 11 X s 591 450 m -6 Y s 586
444 m 11 X s 592 474 m 8 Y s 586 482 m 11 X s 592 451 m -9 Y s 586 442 m 11 X s 592 472 m 13 Y s 586 485 m 12 X s 592 449 m -12 Y s 586 437 m 12 X s 593 458 m 14 Y s 587 472 m 11 X s 593 435 m -14 Y s 587 421 m 11 X s 593 457 m 17 Y s 587 474 m 12
X s 593 435 m -17 Y s 587 418 m 12 X s 593 457 m 15 Y s 588 472 m 11 X s 593 434 m -15 Y s 588 419 m 11 X s 594 457 m 18 Y s 588 475 m 11 X s 594 434 m -18 Y s 588 416 m 11 X s 594 460 m 17 Y s 588 477 m 12 X s 594 437 m -17 Y s 588 420 m 12 X s
594 452 m 17 Y s 589 469 m 11 X s 594 429 m -17 Y s 589 412 m 11 X s 595 457 m 18 Y s 589 475 m 12 X s 595 435 m -18 Y s 589 417 m 12 X s 595 487 m 21 Y s 590 508 m 11 X s 595 464 m -21 Y s 590 443 m 11 X s 596 459 m 25 Y s 590 484 m 11 X s 596 436
m -26 Y s 590 410 m 11 X s 596 457 m 21 Y s 590 478 m 12 X s 596 434 m -21 Y s 590 413 m 12 X s 596 468 m 24 Y s 591 492 m 11 X s 596 445 m -24 Y s 591 421 m 11 X s 597 460 m 19 Y s 591 479 m 11 X s 597 437 m -19 Y s 591 418 m 11 X s 597 460 m 12 Y
s 591 472 m 12 X s 597 437 m -11 Y s 591 426 m 12 X s 598 490 m 16 Y s 592 506 m 11 X s 598 467 m -16 Y s 592 451 m 11 X s 598 458 m 29 Y s 592 487 m 12 X s 598 436 m -29 Y s 592 407 m 12 X s 598 475 m 26 Y s 593 501 m 11 X s 598 453 m -26 Y s 593
427 m 11 X s 599 464 m 28 Y s 593 492 m 11 X s 599 441 m -27 Y s 593 414 m 11 X s 599 454 m 19 Y s 593 473 m 12 X s 599 431 m -18 Y s 593 413 m 12 X s 599 458 m 16 Y s 594 474 m 11 X s 599 435 m -16 Y s 594 419 m 11 X s 600 455 m 11 Y s 594 466 m
12 X s 600 432 m -10 Y s 594 422 m 12 X s 600 448 m 9 Y s 595 457 m 11 X s 600 425 m -9 Y s 595 416 m 11 X s 601 452 m 9 Y s 595 461 m 11 X s 601 430 m -9 Y s 595 421 m 11 X s 601 456 m 12 Y s 595 468 m 12 X s 601 433 m -12 Y s 595 421 m 12 X s 601
470 m 8 Y s 596 478 m 11 X s 601 448 m -8 Y s 596 440 m 11 X s 602 465 m 7 Y s 596 472 m 11 X s 602 442 m -8 Y s 596 434 m 11 X s 602 465 m 13 Y s 596 478 m 12 X s 602 443 m -13 Y s 596 430 m 12 X s 603 470 m 13 Y s 597 483 m 11 X s 603 448 m -13 Y
s 597 435 m 11 X s 603 465 m 17 Y s 597 482 m 12 X s 603 442 m -16 Y s 597 426 m 12 X s 603 468 m 12 Y s 598 480 m 11 X s 603 445 m -12 Y s 598 433 m 11 X s 604 470 m 10 Y s 598 480 m 11 X s 604 447 m -11 Y s 598 436 m 11 X s 604 474 m 8 Y s 598
482 m 12 X s 604 451 m -8 Y s 598 443 m 12 X s 604 470 m 3 Y s 599 473 m 11 X s 604 448 m -3 Y s 599 445 m 11 X s 605 478 m 4 Y s 599 482 m 12 X s 605 455 m -4 Y s 599 451 m 12 X s 605 506 m 4 Y s 600 510 m 11 X s 605 484 m -3 Y s 600 481 m 11 X s
611 487 m 1 Y s 605 488 m 11 X s 611 464 m -1 Y s 605 463 m 11 X s 611 482 m 6 Y s 605 488 m 12 X s 611 459 m -6 Y s 605 453 m 12 X s 611 500 m 3 Y s 606 503 m 11 X s 611 477 m -4 Y s 606 473 m 11 X s 612 496 m 3 Y s 606 499 m 11 X s 612 474 m -3 Y
s 606 471 m 11 X s 612 495 m 1 Y s 606 496 m 12 X s 612 472 m -1 Y s 606 471 m 12 X s 614 501 m s 608 501 m 11 X s 614 479 m -1 Y s 608 478 m 11 X s 618 504 m 2 Y s 612 506 m 11 X s 618 481 m -1 Y s 612 480 m 11 X s 618 509 m s 612 509 m 12 X s 618
486 m -1 Y s 612 485 m 12 X s 619 500 m 5 Y s 613 505 m 11 X s 619 478 m -5 Y s 613 473 m 11 X s 619 496 m 2 Y s 613 498 m 12 X s 619 474 m -2 Y s 613 472 m 12 X s 621 523 m s 616 523 m 11 X s 621 500 m -1 Y s 616 499 m 11 X s 625 519 m 9 Y s 619
528 m 12 X s 625 497 m -9 Y s 619 488 m 12 X s 625 519 m 11 Y s 620 530 m 11 X s 625 496 m -11 Y s 620 485 m 11 X s 629 549 m s 624 549 m 11 X s 629 526 m -1 Y s 624 525 m 11 X s 630 546 m 1 Y s 624 547 m 12 X s 630 523 m -1 Y s 624 522 m 12 X s
631 536 m 1 Y s 625 537 m 11 X s 631 513 m -1 Y s 625 512 m 11 X s 640 538 m s 634 538 m 12 X s 640 515 m s 634 515 m 12 X s 656 532 m s 650 532 m 11 X s 656 509 m s 650 509 m 11 X s 661 524 m 1 Y s 655 525 m 11 X s 661 501 m s 655 501 m 11 X s 671
540 m 9 Y s 665 549 m 12 X s 671 517 m -9 Y s 665 508 m 12 X s 672 537 m 4 Y s 666 541 m 11 X s 672 515 m -3 Y s 666 512 m 11 X s 674 523 m 7 Y s 668 530 m 12 X s 674 500 m -6 Y s 668 494 m 12 X s 674 517 m 6 Y s 669 523 m 11 X s 674 494 m -6 Y s
669 488 m 11 X s 675 513 m s 669 513 m 12 X s 675 490 m s 669 490 m 12 X s 676 510 m 3 Y s 670 513 m 11 X s 676 488 m -3 Y s 670 485 m 11 X s 677 533 m 3 Y s 671 536 m 11 X s 677 510 m -3 Y s 671 507 m 11 X s 677 522 m 9 Y s 672 531 m 11 X s 677
499 m -9 Y s 672 490 m 11 X s 678 538 m 1 Y s 672 539 m 12 X s 678 515 m s 672 515 m 12 X s 682 518 m s 676 518 m 11 X s 682 495 m -1 Y s 676 494 m 11 X s 683 543 m 7 Y s 678 550 m 11 X s 683 520 m -7 Y s 678 513 m 11 X s 684 554 m 3 Y s 678 557 m
11 X s 684 531 m -2 Y s 678 529 m 11 X s 684 526 m 3 Y s 678 529 m 12 X s 684 504 m -3 Y s 678 501 m 12 X s 688 548 m 5 Y s 682 553 m 12 X s 688 525 m -6 Y s 682 519 m 12 X s 689 526 m 2 Y s 683 528 m 11 X s 689 503 m -1 Y s 683 502 m 11 X s 689
541 m 5 Y s 684 546 m 11 X s 689 518 m -5 Y s 684 513 m 11 X s 694 512 m 1 Y s 688 513 m 12 X s 694 489 m -1 Y s 688 488 m 12 X s 695 512 m 3 Y s 689 515 m 11 X s 695 489 m -4 Y s 689 485 m 11 X s 695 500 m 3 Y s 689 503 m 12 X s 695 477 m -2 Y s
689 475 m 12 X s 696 504 m 1 Y s 690 505 m 11 X s 696 481 m -1 Y s 690 480 m 11 X s 696 510 m 9 Y s 690 519 m 12 X s 696 488 m -9 Y s 690 479 m 12 X s 696 504 m 6 Y s 691 510 m 11 X s 696 482 m -6 Y s 691 476 m 11 X s 697 504 m 5 Y s 691 509 m 11 X
s 697 481 m -5 Y s 691 476 m 11 X s 697 497 m 8 Y s 691 505 m 12 X s 697 474 m -9 Y s 691 465 m 12 X s 697 503 m 18 Y s 692 521 m 11 X s 697 480 m -17 Y s 692 463 m 11 X s 698 504 m 16 Y s 692 520 m 12 X s 698 481 m -16 Y s 692 465 m 12 X s 698 497
m 13 Y s 692 510 m 12 X s 698 474 m -13 Y s 692 461 m 12 X s 699 502 m 8 Y s 693 510 m 11 X s 699 479 m -9 Y s 693 470 m 11 X s 699 498 m 13 Y s 693 511 m 12 X s 699 476 m -13 Y s 693 463 m 12 X s 699 501 m 7 Y s 694 508 m 11 X s 699 478 m -7 Y s
694 471 m 11 X s 700 518 m s 694 518 m 11 X s 700 495 m s 694 495 m 11 X s 700 513 m 9 Y s 694 522 m 12 X s 700 490 m -9 Y s 694 481 m 12 X s 700 512 m 12 Y s 695 524 m 11 X s 700 489 m -12 Y s 695 477 m 11 X s 701 516 m 4 Y s 695 520 m 12 X s 701
493 m -5 Y s 695 488 m 12 X s 701 509 m 4 Y s 696 513 m 11 X s 701 486 m -4 Y s 696 482 m 11 X s 702 507 m 7 Y s 696 514 m 11 X s 702 484 m -7 Y s 696 477 m 11 X s 702 501 m 6 Y s 696 507 m 12 X s 702 479 m -6 Y s 696 473 m 12 X s 702 510 m 5 Y s
697 515 m 11 X s 702 487 m -4 Y s 697 483 m 11 X s 703 515 m 3 Y s 697 518 m 11 X s 703 492 m -3 Y s 697 489 m 11 X s 703 518 m 5 Y s 697 523 m 12 X s 703 496 m -5 Y s 697 491 m 12 X s 704 522 m 6 Y s 698 528 m 11 X s 704 499 m -6 Y s 698 493 m 11
X s 705 511 m 5 Y s 699 516 m 12 X s 705 489 m -4 Y s 699 485 m 12 X s 705 506 m 3 Y s 700 509 m 11 X s 705 484 m -4 Y s 700 480 m 11 X s 706 510 m 6 Y s 700 516 m 12 X s 706 487 m -5 Y s 700 482 m 12 X s 706 512 m 3 Y s 701 515 m 11 X s 706 490 m
-3 Y s 701 487 m 11 X s 707 518 m 5 Y s 701 523 m 11 X s 707 495 m -4 Y s 701 491 m 11 X s 707 524 m s 701 524 m 12 X s 707 501 m -1 Y s 701 500 m 12 X s 709 535 m 2 Y s 703 537 m 11 X s 709 512 m -2 Y s 703 510 m 11 X s 714 535 m 1 Y s 709 536 m
11 X s 714 512 m s 709 512 m 11 X s 719 534 m 1 Y s 714 535 m 11 X s 719 511 m -1 Y s 714 510 m 11 X s 724 554 m 2 Y s 718 556 m 11 X s 724 531 m -2 Y s 718 529 m 11 X s 724 562 m 3 Y s 718 565 m 12 X s 724 539 m -3 Y s 718 536 m 12 X s 724 558 m 4
Y s 719 562 m 11 X s 724 535 m -3 Y s 719 532 m 11 X s 725 571 m 6 Y s 719 577 m 11 X s 725 548 m -5 Y s 719 543 m 11 X s 725 576 m 2 Y s 719 578 m 12 X s 725 553 m -2 Y s 719 551 m 12 X s 725 570 m 6 Y s 720 576 m 11 X s 725 547 m -6 Y s 720 541 m
11 X s 726 561 m 8 Y s 720 569 m 12 X s 726 538 m -9 Y s 720 529 m 12 X s 726 563 m 3 Y s 721 566 m 11 X s 726 540 m -4 Y s 721 536 m 11 X s 727 563 m 6 Y s 721 569 m 11 X s 727 540 m -6 Y s 721 534 m 11 X s 727 575 m 3 Y s 721 578 m 12 X s 727 553
m -3 Y s 721 550 m 12 X s 727 576 m 6 Y s 722 582 m 11 X s 727 553 m -5 Y s 722 548 m 11 X s 728 570 m 11 Y s 722 581 m 11 X s 728 548 m -11 Y s 722 537 m 11 X s 728 564 m 5 Y s 722 569 m 12 X s 728 541 m -5 Y s 722 536 m 12 X s 729 565 m 7 Y s 723
572 m 11 X s 729 542 m -6 Y s 723 536 m 11 X s 729 577 m 5 Y s 724 582 m 11 X s 729 555 m -5 Y s 724 550 m 11 X s 730 575 m 6 Y s 724 581 m 11 X s 730 552 m -7 Y s 724 545 m 11 X s 731 571 m 3 Y s 725 574 m 12 X s 731 548 m -3 Y s 725 545 m 12 X s
731 578 m 6 Y s 726 584 m 11 X s 731 556 m -6 Y s 726 550 m 11 X s 732 586 m 2 Y s 726 588 m 11 X s 732 563 m -2 Y s 726 561 m 11 X s 732 575 m 3 Y s 726 578 m 12 X s 732 552 m -3 Y s 726 549 m 12 X s 732 576 m 4 Y s 727 580 m 11 X s 732 553 m -4 Y
s 727 549 m 11 X s 733 580 m 4 Y s 727 584 m 11 X s 733 557 m -5 Y s 727 552 m 11 X s 733 580 m s 727 580 m 12 X s 733 557 m s 727 557 m 12 X s 734 558 m 4 Y s 728 562 m 12 X s 734 535 m -4 Y s 728 531 m 12 X s 734 575 m 9 Y s 729 584 m 11 X s 734
552 m -10 Y s 729 542 m 11 X s 735 590 m s 729 590 m 11 X s 735 567 m s 729 567 m 11 X s 736 573 m 2 Y s 731 575 m 11 X s 736 551 m -2 Y s 731 549 m 11 X s 737 570 m 4 Y s 731 574 m 11 X s 737 547 m -4 Y s 731 543 m 11 X s 737 564 m 5 Y s 731 569 m
12 X s 737 542 m -5 Y s 731 537 m 12 X s 737 559 m 4 Y s 732 563 m 11 X s 737 536 m -5 Y s 732 531 m 11 X s 738 556 m 2 Y s 732 558 m 11 X s 738 533 m -2 Y s 732 531 m 11 X s 738 564 m 9 Y s 732 573 m 12 X s 738 541 m -9 Y s 732 532 m 12 X s 739
568 m 8 Y s 733 576 m 11 X s 739 545 m -9 Y s 733 536 m 11 X s 739 562 m 7 Y s 734 569 m 11 X s 739 539 m -7 Y s 734 532 m 11 X s 740 558 m 9 Y s 734 567 m 11 X s 740 535 m -10 Y s 734 525 m 11 X s 740 564 m 2 Y s 734 566 m 12 X s 740 541 m -2 Y s
734 539 m 12 X s 740 568 m 5 Y s 735 573 m 11 X s 740 546 m -5 Y s 735 541 m 11 X s 741 571 m 11 Y s 735 582 m 12 X s 741 548 m -12 Y s 735 536 m 12 X s 741 573 m 6 Y s 736 579 m 11 X s 741 550 m -5 Y s 736 545 m 11 X s 742 564 m 7 Y s 736 571 m 12
X s 742 541 m -6 Y s 736 535 m 12 X s 742 554 m 15 Y s 737 569 m 11 X s 742 531 m -15 Y s 737 516 m 11 X s 743 578 m 9 Y s 737 587 m 11 X s 743 555 m -9 Y s 737 546 m 11 X s 745 580 m 1 Y s 739 581 m 12 X s 745 557 m s 739 557 m 12 X s 745 562 m 1
Y s 740 563 m 11 X s 745 539 m -1 Y s 740 538 m 11 X s 746 564 m 4 Y s 741 568 m 11 X s 746 541 m -3 Y s 741 538 m 11 X s 747 572 m 6 Y s 741 578 m 11 X s 747 550 m -6 Y s 741 544 m 11 X s 747 552 m 6 Y s 741 558 m 12 X s 747 529 m -7 Y s 741 522 m
12 X s 747 557 m 4 Y s 742 561 m 11 X s 747 534 m -3 Y s 742 531 m 11 X s 748 572 m s 742 572 m 11 X s 748 549 m -1 Y s 742 548 m 11 X s 749 563 m 1 Y s 743 564 m 12 X s 749 540 m s 743 540 m 12 X s 749 570 m 2 Y s 744 572 m 11 X s 749 547 m -2 Y s
744 545 m 11 X s 750 562 m 2 Y s 744 564 m 11 X s 750 539 m -2 Y s 744 537 m 11 X s 750 564 m 1 Y s 744 565 m 12 X s 750 542 m -1 Y s 744 541 m 12 X s 754 556 m 1 Y s 748 557 m 11 X s 754 533 m -1 Y s 748 532 m 11 X s 754 559 m 1 Y s 748 560 m 12 X
s 754 536 m -1 Y s 748 535 m 12 X s 755 585 m 3 Y s 749 588 m 12 X s 755 562 m -4 Y s 749 558 m 12 X s 758 585 m 4 Y s 752 589 m 11 X s 758 562 m -4 Y s 752 558 m 11 X s 758 577 m 9 Y s 752 586 m 12 X s 758 554 m -8 Y s 752 546 m 12 X s 760 560 m 6
Y s 754 566 m 12 X s 760 537 m -6 Y s 754 531 m 12 X s 760 581 m 2 Y s 755 583 m 11 X s 760 558 m -2 Y s 755 556 m 11 X s 761 583 m 1 Y s 755 584 m 12 X s 761 560 m -1 Y s 755 559 m 12 X s 761 571 m 5 Y s 755 576 m 12 X s 761 548 m -4 Y s 755 544 m
12 X s 762 557 m 3 Y s 756 560 m 11 X s 762 534 m -2 Y s 756 532 m 11 X s 762 560 m 5 Y s 756 565 m 12 X s 762 537 m -6 Y s 756 531 m 12 X s 763 586 m s 758 586 m 11 X s 763 563 m s 758 563 m 11 X s 765 577 m 3 Y s 759 580 m 11 X s 765 554 m -2 Y s
759 552 m 11 X s 765 590 m 1 Y s 759 591 m 12 X s 765 567 m -2 Y s 759 565 m 12 X s 766 573 m s 760 573 m 12 X s 766 551 m -1 Y s 760 550 m 12 X s 767 579 m 3 Y s 762 582 m 11 X s 767 556 m -4 Y s 762 552 m 11 X s 768 557 m 4 Y s 762 561 m 11 X s
768 534 m -5 Y s 762 529 m 11 X s 768 575 m s 763 575 m 11 X s 768 552 m s 763 552 m 11 X s 775 551 m s 769 551 m 11 X s 775 528 m -1 Y s 769 527 m 11 X s 778 557 m s 772 557 m 12 X s 778 534 m -1 Y s 772 533 m 12 X s 778 553 m 8 Y s 773 561 m 11 X
s 778 530 m -8 Y s 773 522 m 11 X s 785 591 m 2 Y s 779 593 m 12 X s 785 568 m -1 Y s 779 567 m 12 X s 785 600 m 4 Y s 780 604 m 11 X s 785 577 m -4 Y s 780 573 m 11 X s 786 585 m 3 Y s 780 588 m 12 X s 786 562 m -3 Y s 780 559 m 12 X s 787 575 m 5
Y s 781 580 m 11 X s 787 552 m -4 Y s 781 548 m 11 X s 787 595 m 1 Y s 782 596 m 11 X s 787 572 m -1 Y s 782 571 m 11 X s 788 603 m 4 Y s 782 607 m 11 X s 788 580 m -4 Y s 782 576 m 11 X s 788 603 m 21 Y s 782 624 m 12 X s 788 580 m -22 Y s 782 558
m 12 X s 789 657 m 8 Y s 783 665 m 12 X s 789 634 m -8 Y s 783 626 m 12 X s 789 674 m 5 Y s 784 679 m 11 X s 789 651 m -5 Y s 784 646 m 11 X s 790 661 m 4 Y s 784 665 m 11 X s 790 638 m -4 Y s 784 634 m 11 X s 790 684 m 6 Y s 785 690 m 11 X s 790
661 m -5 Y s 785 656 m 11 X s 791 706 m 20 Y s 785 726 m 12 X s 791 683 m -20 Y s 785 663 m 12 X s 792 740 m 10 Y s 786 750 m 11 X s 792 717 m -10 Y s 786 707 m 11 X s 792 709 m 1 Y s 787 710 m 11 X s 792 687 m -1 Y s 787 686 m 11 X s 793 746 m 3 Y
s 788 749 m 11 X s 793 724 m -4 Y s 788 720 m 11 X s 794 759 m 2 Y s 788 761 m 12 X s 794 736 m -2 Y s 788 734 m 12 X s 795 813 m 4 Y s 789 817 m 12 X s 795 790 m -5 Y s 789 785 m 12 X s 796 901 m 1 Y s 790 902 m 11 X s 796 878 m -1 Y s 790 877 m
11 X s 796 942 m 3 Y s 790 945 m 12 X s 796 919 m -4 Y s 790 915 m 12 X s 797 1016 m 12 Y s 791 1028 m 11 X s 797 993 m -12 Y s 791 981 m 11 X s 797 1102 m 4 Y s 791 1106 m 12 X s 797 1079 m -4 Y s 791 1075 m 12 X s 797 1157 m 11 Y s 792 1168 m 11
X s 797 1134 m -10 Y s 792 1124 m 11 X s 798 1297 m 21 Y s 792 1318 m 11 X s 798 1274 m -20 Y s 792 1254 m 11 X s 798 1469 m 46 Y s 792 1515 m 12 X s 798 1446 m -46 Y s 792 1400 m 12 X s 798 1763 m 75 Y s 793 1838 m 11 X s 798 1741 m -75 Y s 793
1666 m 11 X s 803 1569 m 42 Y s 798 1611 m 11 X s 803 1546 m -42 Y s 798 1504 m 11 X s 804 1342 m 28 Y s 798 1370 m 12 X s 804 1319 m -28 Y s 798 1291 m 12 X s 804 1186 m 15 Y s 799 1201 m 11 X s 804 1163 m -15 Y s 799 1148 m 11 X s 805 1082 m 1 Y
s 799 1083 m 11 X s 805 1060 m -1 Y s 799 1059 m 11 X s 805 1008 m 7 Y s 799 1015 m 12 X s 805 985 m -8 Y s 799 977 m 12 X s 806 899 m 7 Y s 800 906 m 11 X s 806 877 m -6 Y s 800 871 m 11 X s 807 822 m 5 Y s 801 827 m 11 X s 807 799 m -5 Y s 801
794 m 11 X s 807 809 m 4 Y s 801 813 m 12 X s 807 786 m -5 Y s 801 781 m 12 X s 810 678 m s 804 678 m 11 X s 810 655 m -1 Y s 804 654 m 11 X s 812 650 m 2 Y s 806 652 m 11 X s 812 627 m -2 Y s 806 625 m 11 X s 812 614 m 5 Y s 806 619 m 12 X s 812
591 m -6 Y s 806 585 m 12 X s 818 588 m s 812 588 m 11 X s 818 565 m s 812 565 m 11 X s 820 575 m 1 Y s 814 576 m 12 X s 820 552 m -1 Y s 814 551 m 12 X s 822 550 m s 817 550 m 11 X s 822 527 m -1 Y s 817 526 m 11 X s 823 555 m s 817 555 m 12 X s
823 532 m s 817 532 m 12 X s 825 572 m 2 Y s 820 574 m 11 X s 825 550 m -2 Y s 820 548 m 11 X s 826 554 m 1 Y s 821 555 m 11 X s 826 531 m s 821 531 m 11 X s 831 569 m 3 Y s 826 572 m 11 X s 831 547 m -3 Y s 826 544 m 11 X s 832 542 m 6 Y s 826 548
m 12 X s 832 519 m -7 Y s 826 512 m 12 X s 837 542 m s 831 542 m 12 X s 837 520 m s 831 520 m 12 X s 837 535 m 10 Y s 832 545 m 11 X s 837 512 m -10 Y s 832 502 m 11 X s 838 577 m 8 Y s 832 585 m 11 X s 838 555 m -8 Y s 832 547 m 11 X s 838 574 m 9
Y s 832 583 m 12 X s 838 551 m -10 Y s 832 541 m 12 X s 838 577 m s 833 577 m 11 X s 838 554 m s 833 554 m 11 X s 839 574 m 8 Y s 833 582 m 11 X s 839 551 m -8 Y s 833 543 m 11 X s 839 564 m 10 Y s 833 574 m 12 X s 839 541 m -10 Y s 833 531 m 12 X
s 840 564 m 17 Y s 834 581 m 11 X s 840 542 m -17 Y s 834 525 m 11 X s 840 559 m 16 Y s 834 575 m 12 X s 840 536 m -16 Y s 834 520 m 12 X s 840 576 m 1 Y s 835 577 m 11 X s 840 554 m -1 Y s 835 553 m 11 X s 841 562 m 11 Y s 835 573 m 11 X s 841 539
m -11 Y s 835 528 m 11 X s 841 559 m 9 Y s 835 568 m 12 X s 841 536 m -9 Y s 835 527 m 12 X s 841 547 m 10 Y s 836 557 m 11 X s 841 524 m -11 Y s 836 513 m 11 X s 842 554 m 9 Y s 836 563 m 12 X s 842 531 m -8 Y s 836 523 m 12 X s 842 569 m 12 Y s
837 581 m 11 X s 842 546 m -12 Y s 837 534 m 11 X s 843 575 m 7 Y s 837 582 m 11 X s 843 552 m -6 Y s 837 546 m 11 X s 843 570 m 9 Y s 837 579 m 12 X s 843 547 m -8 Y s 837 539 m 12 X s 843 563 m 15 Y s 838 578 m 11 X s 843 540 m -15 Y s 838 525 m
11 X s 844 578 m 7 Y s 838 585 m 11 X s 844 555 m -8 Y s 838 547 m 11 X s 844 565 m 7 Y s 838 572 m 12 X s 844 542 m -7 Y s 838 535 m 12 X s 845 545 m 20 Y s 839 565 m 11 X s 845 522 m -20 Y s 839 502 m 11 X s 845 564 m 7 Y s 839 571 m 12 X s 845
541 m -7 Y s 839 534 m 12 X s 845 582 m 9 Y s 840 591 m 11 X s 845 559 m -9 Y s 840 550 m 11 X s 846 597 m 7 Y s 840 604 m 11 X s 846 575 m -7 Y s 840 568 m 11 X s 846 591 m 4 Y s 841 595 m 11 X s 846 568 m -4 Y s 841 564 m 11 X s 847 600 m 8 Y s
841 608 m 12 X s 847 577 m -8 Y s 841 569 m 12 X s 847 605 m 8 Y s 842 613 m 11 X s 847 582 m -9 Y s 842 573 m 11 X s 848 591 m 12 Y s 842 603 m 11 X s 848 568 m -13 Y s 842 555 m 11 X s 848 563 m 10 Y s 842 573 m 12 X s 848 540 m -11 Y s 842 529 m
12 X s 848 570 m 8 Y s 843 578 m 11 X s 848 547 m -8 Y s 843 539 m 11 X s 849 561 m 6 Y s 843 567 m 11 X s 849 538 m -6 Y s 843 532 m 11 X s 849 539 m 12 Y s 843 551 m 12 X s 849 516 m -11 Y s 843 505 m 12 X s 850 543 m 4 Y s 844 547 m 11 X s 850
520 m -3 Y s 844 517 m 11 X s 850 547 m 7 Y s 844 554 m 12 X s 850 524 m -8 Y s 844 516 m 12 X s 850 553 m 6 Y s 845 559 m 11 X s 850 531 m -6 Y s 845 525 m 11 X s 851 565 m 9 Y s 845 574 m 11 X s 851 542 m -10 Y s 845 532 m 11 X s 851 551 m 7 Y s
845 558 m 12 X s 851 529 m -7 Y s 845 522 m 12 X s 851 550 m 13 Y s 846 563 m 11 X s 851 527 m -12 Y s 846 515 m 11 X s 852 557 m 6 Y s 846 563 m 12 X s 852 534 m -5 Y s 846 529 m 12 X s 852 564 m 9 Y s 847 573 m 11 X s 852 541 m -9 Y s 847 532 m
11 X s 853 549 m 9 Y s 847 558 m 11 X s 853 526 m -8 Y s 847 518 m 11 X s 854 546 m 10 Y s 848 556 m 11 X s 854 524 m -10 Y s 848 514 m 11 X s 854 546 m 2 Y s 848 548 m 12 X s 854 523 m -2 Y s 848 521 m 12 X s 855 543 m 5 Y s 849 548 m 12 X s 855
521 m -5 Y s 849 516 m 12 X s 855 549 m 3 Y s 850 552 m 11 X s 855 526 m -3 Y s 850 523 m 11 X s 856 533 m 10 Y s 850 543 m 11 X s 856 510 m -10 Y s 850 500 m 11 X s 856 544 m 8 Y s 850 552 m 12 X s 856 522 m -8 Y s 850 514 m 12 X s 856 553 m 1 Y s
851 554 m 11 X s 856 530 m -2 Y s 851 528 m 11 X s 857 550 m 4 Y s 851 554 m 12 X s 857 527 m -3 Y s 851 524 m 12 X s 857 529 m 11 Y s 852 540 m 11 X s 857 506 m -11 Y s 852 495 m 11 X s 858 545 m 1 Y s 852 546 m 11 X s 858 522 m -1 Y s 852 521 m
11 X s 858 548 m 6 Y s 853 554 m 11 X s 858 525 m -6 Y s 853 519 m 11 X s 859 549 m 4 Y s 853 553 m 11 X s 859 526 m -4 Y s 853 522 m 11 X s 860 556 m 5 Y s 854 561 m 11 X s 860 533 m -4 Y s 854 529 m 11 X s 860 553 m 2 Y s 854 555 m 12 X s 860 531
m -2 Y s 854 529 m 12 X s 860 547 m 5 Y s 855 552 m 11 X s 860 524 m -5 Y s 855 519 m 11 X s 861 539 m 2 Y s 855 541 m 11 X s 861 516 m -1 Y s 855 515 m 11 X s 862 541 m 5 Y s 857 546 m 11 X s 862 518 m -6 Y s 857 512 m 11 X s 863 535 m 2 Y s 857
537 m 11 X s 863 513 m -1 Y s 857 512 m 11 X s 863 548 m 8 Y s 857 556 m 12 X s 863 525 m -7 Y s 857 518 m 12 X s 863 548 m 6 Y s 858 554 m 11 X s 863 525 m -6 Y s 858 519 m 11 X s 864 544 m 14 Y s 858 558 m 11 X s 864 521 m -14 Y s 858 507 m 11 X
s 864 539 m 13 Y s 858 552 m 12 X s 864 516 m -13 Y s 858 503 m 12 X s 865 536 m 3 Y s 859 539 m 12 X s 865 513 m -3 Y s 859 510 m 12 X s 865 537 m 9 Y s 860 546 m 11 X s 865 514 m -8 Y s 860 506 m 11 X s 866 546 m 9 Y s 860 555 m 11 X s 866 524 m
-9 Y s 860 515 m 11 X s 866 556 m 5 Y s 860 561 m 12 X s 866 533 m -6 Y s 860 527 m 12 X s 866 537 m 8 Y s 861 545 m 11 X s 866 514 m -8 Y s 861 506 m 11 X s 867 551 m 10 Y s 861 561 m 12 X s 867 528 m -9 Y s 861 519 m 12 X s 868 527 m 8 Y s 862
535 m 11 X s 868 505 m -8 Y s 862 497 m 11 X s 868 530 m 3 Y s 862 533 m 12 X s 868 507 m -4 Y s 862 503 m 12 X s 868 549 m 3 Y s 863 552 m 11 X s 868 527 m -3 Y s 863 524 m 11 X s 869 532 m 9 Y s 863 541 m 11 X s 869 509 m -9 Y s 863 500 m 11 X s
869 536 m 7 Y s 863 543 m 12 X s 869 513 m -7 Y s 863 506 m 12 X s 870 532 m 5 Y s 864 537 m 11 X s 870 509 m -4 Y s 864 505 m 11 X s 870 528 m 16 Y s 864 544 m 12 X s 870 505 m -15 Y s 864 490 m 12 X s 870 541 m 11 Y s 865 552 m 11 X s 870 518 m
-11 Y s 865 507 m 11 X s 871 542 m 11 Y s 865 553 m 11 X s 871 519 m -11 Y s 865 508 m 11 X s 872 536 m 1 Y s 866 537 m 12 X s 872 514 m -1 Y s 866 513 m 12 X s 873 554 m 5 Y s 867 559 m 11 X s 873 531 m -5 Y s 867 526 m 11 X s 873 542 m 6 Y s 867
548 m 12 X s 873 519 m -5 Y s 867 514 m 12 X s 873 541 m s 868 541 m 11 X s 873 518 m s 868 518 m 11 X s 874 549 m 6 Y s 868 555 m 11 X s 874 526 m -6 Y s 868 520 m 11 X s 874 564 m 3 Y s 868 567 m 12 X s 874 541 m -3 Y s 868 538 m 12 X s 875 559 m
2 Y s 869 561 m 11 X s 875 537 m -2 Y s 869 535 m 11 X s 875 548 m 5 Y s 869 553 m 12 X s 875 525 m -5 Y s 869 520 m 12 X s 875 517 m 15 Y s 870 532 m 11 X s 875 495 m -15 Y s 870 480 m 11 X s 876 516 m 8 Y s 870 524 m 11 X s 876 493 m -8 Y s 870
485 m 11 X s 876 549 m 3 Y s 870 552 m 12 X s 876 526 m -3 Y s 870 523 m 12 X s 876 521 m 3 Y s 871 524 m 11 X s 876 498 m -3 Y s 871 495 m 11 X s 878 523 m 9 Y s 872 532 m 11 X s 878 500 m -10 Y s 872 490 m 11 X s 878 537 m s 873 537 m 11 X s 878
514 m s 873 514 m 11 X s 879 526 m 1 Y s 873 527 m 11 X s 879 503 m -1 Y s 873 502 m 11 X s 879 524 m 7 Y s 873 531 m 12 X s 879 501 m -7 Y s 873 494 m 12 X s 880 515 m 7 Y s 874 522 m 12 X s 880 492 m -6 Y s 874 486 m 12 X s 880 525 m 1 Y s 875
526 m 11 X s 880 502 m -1 Y s 875 501 m 11 X s 881 517 m 7 Y s 875 524 m 11 X s 881 495 m -7 Y s 875 488 m 11 X s 881 528 m 6 Y s 875 534 m 12 X s 881 505 m -6 Y s 875 499 m 12 X s 881 536 m 10 Y s 876 546 m 11 X s 881 514 m -10 Y s 876 504 m 11 X
s 883 527 m 2 Y s 877 529 m 11 X s 883 504 m -1 Y s 877 503 m 11 X s 884 510 m 4 Y s 878 514 m 11 X s 884 487 m -4 Y s 878 483 m 11 X s 884 510 m 5 Y s 878 515 m 12 X s 884 488 m -6 Y s 878 482 m 12 X s 885 520 m 2 Y s 879 522 m 11 X s 885 497 m -3
Y s 879 494 m 11 X s 886 532 m 2 Y s 880 534 m 12 X s 886 509 m -2 Y s 880 507 m 12 X s 886 531 m 2 Y s 881 533 m 11 X s 886 508 m -2 Y s 881 506 m 11 X s 887 526 m 4 Y s 881 530 m 12 X s 887 503 m -4 Y s 881 499 m 12 X s 888 534 m 2 Y s 882 536 m
11 X s 888 512 m -2 Y s 882 510 m 11 X s 888 510 m 18 Y s 882 528 m 12 X s 888 487 m -17 Y s 882 470 m 12 X s 888 521 m 6 Y s 883 527 m 11 X s 888 498 m -6 Y s 883 492 m 11 X s 889 522 m 12 Y s 883 534 m 11 X s 889 500 m -12 Y s 883 488 m 11 X s
890 525 m 3 Y s 884 528 m 12 X s 890 502 m -3 Y s 884 499 m 12 X s 890 527 m 6 Y s 885 533 m 11 X s 890 504 m -6 Y s 885 498 m 11 X s 896 545 m 1 Y s 890 546 m 11 X s 896 522 m -1 Y s 890 521 m 11 X s 896 552 m 1 Y s 890 553 m 12 X s 896 529 m -1 Y
s 890 528 m 12 X s 897 506 m s 891 506 m 12 X s 897 483 m -1 Y s 891 482 m 12 X s 904 555 m 2 Y s 898 557 m 11 X s 904 532 m -2 Y s 898 530 m 11 X s 908 544 m 4 Y s 903 548 m 11 X s 908 522 m -4 Y s 903 518 m 11 X s 919 536 m s 913 536 m 12 X s 919
513 m -1 Y s 913 512 m 12 X s 922 497 m 4 Y s 916 501 m 12 X s 922 474 m -3 Y s 916 471 m 12 X s 923 503 m s 918 503 m 11 X s 923 480 m s 918 480 m 11 X s 924 498 m 7 Y s 918 505 m 11 X s 924 475 m -7 Y s 918 468 m 11 X s 926 518 m 4 Y s 921 522 m
11 X s 926 496 m -4 Y s 921 492 m 11 X s 933 504 m 2 Y s 927 506 m 12 X s 933 481 m -2 Y s 927 479 m 12 X s 934 538 m 1 Y s 928 539 m 11 X s 934 515 m -1 Y s 928 514 m 11 X s 936 513 m 7 Y s 931 520 m 11 X s 936 491 m -7 Y s 931 484 m 11 X s 939
476 m 13 Y s 934 489 m 11 X s 939 453 m -13 Y s 934 440 m 11 X s 940 555 m 8 Y s 934 563 m 12 X s 940 533 m -8 Y s 934 525 m 12 X s 941 552 m 7 Y s 935 559 m 12 X s 941 529 m -7 Y s 935 522 m 12 X s 941 543 m 2 Y s 936 545 m 11 X s 941 520 m -2 Y s
936 518 m 11 X s 942 560 m 6 Y s 936 566 m 11 X s 942 537 m -6 Y s 936 531 m 11 X s 942 567 m 10 Y s 936 577 m 12 X s 942 544 m -9 Y s 936 535 m 12 X s 943 572 m s 937 572 m 11 X s 943 549 m s 937 549 m 11 X s 943 581 m 4 Y s 938 585 m 11 X s 943
558 m -4 Y s 938 554 m 11 X s 944 555 m 1 Y s 938 556 m 11 X s 944 533 m -1 Y s 938 532 m 11 X s 944 550 m 1 Y s 938 551 m 12 X s 944 527 m s 938 527 m 12 X s 944 538 m 6 Y s 939 544 m 11 X s 944 515 m -6 Y s 939 509 m 11 X s 945 545 m 7 Y s 940
552 m 11 X s 945 523 m -7 Y s 940 516 m 11 X s 946 537 m 5 Y s 940 542 m 11 X s 946 514 m -5 Y s 940 509 m 11 X s 946 517 m 13 Y s 940 530 m 12 X s 946 495 m -14 Y s 940 481 m 12 X s 946 515 m s 941 515 m 11 X s 946 492 m -1 Y s 941 491 m 11 X s
947 532 m 11 Y s 941 543 m 11 X s 947 509 m -11 Y s 941 498 m 11 X s 947 527 m 2 Y s 941 529 m 12 X s 947 504 m -2 Y s 941 502 m 12 X s 948 530 m s 942 530 m 11 X s 948 507 m s 942 507 m 11 X s 948 537 m 1 Y s 942 538 m 12 X s 948 514 m s 942 514 m
12 X s 948 530 m 1 Y s 943 531 m 11 X s 948 507 m -1 Y s 943 506 m 11 X s 949 514 m 8 Y s 943 522 m 11 X s 949 492 m -8 Y s 943 484 m 11 X s 949 520 m 6 Y s 944 526 m 11 X s 949 497 m -6 Y s 944 491 m 11 X s 950 525 m s 944 525 m 12 X s 950 502 m s
944 502 m 12 X s 950 526 m 4 Y s 944 530 m 12 X s 950 503 m -5 Y s 944 498 m 12 X s 951 519 m 7 Y s 945 526 m 11 X s 951 496 m -8 Y s 945 488 m 11 X s 951 516 m 5 Y s 945 521 m 12 X s 951 493 m -6 Y s 945 487 m 12 X s 951 523 m 6 Y s 946 529 m 11 X
s 951 500 m -7 Y s 946 493 m 11 X s 952 509 m 7 Y s 946 516 m 11 X s 952 486 m -7 Y s 946 479 m 11 X s 952 506 m 3 Y s 946 509 m 12 X s 952 483 m -3 Y s 946 480 m 12 X s 953 534 m 9 Y s 947 543 m 12 X s 953 511 m -9 Y s 947 502 m 12 X s 953 529 m 1
Y s 948 530 m 11 X s 953 506 m -1 Y s 948 505 m 11 X s 954 507 m 1 Y s 948 508 m 11 X s 954 485 m -1 Y s 948 484 m 11 X s 954 524 m 12 Y s 949 536 m 11 X s 954 502 m -12 Y s 949 490 m 11 X s 956 526 m 5 Y s 950 531 m 12 X s 956 503 m -4 Y s 950 499
m 12 X s 961 520 m 8 Y s 955 528 m 11 X s 961 497 m -8 Y s 955 489 m 11 X s 961 513 m 2 Y s 955 515 m 12 X s 961 490 m -2 Y s 955 488 m 12 X s 962 505 m 4 Y s 956 509 m 11 X s 962 482 m -4 Y s 956 478 m 11 X s 962 509 m 8 Y s 956 517 m 12 X s 962
486 m -9 Y s 956 477 m 12 X s 962 538 m 6 Y s 957 544 m 11 X s 962 515 m -6 Y s 957 509 m 11 X s 963 521 m 6 Y s 958 527 m 11 X s 963 498 m -5 Y s 958 493 m 11 X s 965 499 m 4 Y s 959 503 m 12 X s 965 476 m -4 Y s 959 472 m 12 X s 966 516 m 4 Y s
961 520 m 11 X s 966 493 m -4 Y s 961 489 m 11 X s 967 515 m 2 Y s 961 517 m 11 X s 967 492 m -2 Y s 961 490 m 11 X s 968 516 m 6 Y s 963 522 m 11 X s 968 494 m -6 Y s 963 488 m 11 X s 969 512 m 3 Y s 963 515 m 12 X s 969 489 m -3 Y s 963 486 m 12
X s 971 510 m 12 Y s 965 522 m 11 X s 971 487 m -12 Y s 965 475 m 11 X s 971 502 m 4 Y s 965 506 m 12 X s 971 479 m -4 Y s 965 475 m 12 X s 972 529 m 2 Y s 967 531 m 11 X s 972 507 m -2 Y s 967 505 m 11 X s 973 522 m 2 Y s 967 524 m 12 X s 973 500
m -2 Y s 967 498 m 12 X s 974 504 m 10 Y s 968 514 m 11 X s 974 481 m -9 Y s 968 472 m 11 X s 975 514 m s 969 514 m 11 X s 975 491 m -1 Y s 969 490 m 11 X s 977 515 m s 971 515 m 12 X s 977 492 m -1 Y s 971 491 m 12 X s 979 506 m 3 Y s 973 509 m 11
X s 979 483 m -3 Y s 973 480 m 11 X s 981 523 m 2 Y s 975 525 m 11 X s 981 500 m -3 Y s 975 497 m 11 X s 982 516 m 2 Y s 976 518 m 12 X s 982 493 m -1 Y s 976 492 m 12 X s 984 604 m s 978 604 m 11 X s 984 581 m s 978 581 m 11 X s 985 688 m 22 Y s
979 710 m 12 X s 985 666 m -22 Y s 979 644 m 12 X s 986 688 m 2 Y s 980 690 m 11 X s 986 665 m -1 Y s 980 664 m 11 X s 986 638 m 6 Y s 980 644 m 12 X s 986 616 m -6 Y s 980 610 m 12 X s 987 549 m 8 Y s 981 557 m 12 X s 987 526 m -9 Y s 981 517 m 12
X s 987 560 m 4 Y s 982 564 m 11 X s 987 538 m -4 Y s 982 534 m 11 X s 988 513 m 2 Y s 982 515 m 12 X s 988 490 m -1 Y s 982 489 m 12 X s 988 508 m 4 Y s 983 512 m 11 X s 988 485 m -4 Y s 983 481 m 11 X s 990 498 m 7 Y s 984 505 m 11 X s 990 475 m
-7 Y s 984 468 m 11 X s 990 501 m 9 Y s 984 510 m 12 X s 990 478 m -8 Y s 984 470 m 12 X s 991 508 m 4 Y s 985 512 m 11 X s 991 485 m -5 Y s 985 480 m 11 X s 991 525 m 4 Y s 985 529 m 12 X s 991 502 m -4 Y s 985 498 m 12 X s 992 486 m 8 Y s 986 494
m 12 X s 992 463 m -9 Y s 986 454 m 12 X s 992 483 m 9 Y s 987 492 m 11 X s 992 460 m -9 Y s 987 451 m 11 X s 993 506 m 3 Y s 987 509 m 12 X s 993 483 m -3 Y s 987 480 m 12 X s 994 494 m 3 Y s 989 497 m 11 X s 994 471 m -3 Y s 989 468 m 11 X s 995
479 m 14 Y s 989 493 m 11 X s 995 456 m -13 Y s 989 443 m 11 X s 995 496 m 5 Y s 989 501 m 12 X s 995 473 m -6 Y s 989 467 m 12 X s 996 508 m 6 Y s 991 514 m 11 X s 996 486 m -6 Y s 991 480 m 11 X s 997 498 m s 991 498 m 11 X s 997 475 m s 991 475
m 11 X s 997 487 m s 991 487 m 12 X s 997 464 m s 991 464 m 12 X s 998 498 m 5 Y s 992 503 m 12 X s 998 476 m -5 Y s 992 471 m 12 X s 998 485 m 2 Y s 993 487 m 11 X s 998 462 m -2 Y s 993 460 m 11 X s 999 483 m 3 Y s 993 486 m 11 X s 999 460 m -3 Y
s 993 457 m 11 X s 999 498 m 9 Y s 993 507 m 12 X s 999 475 m -9 Y s 993 466 m 12 X s 999 492 m 2 Y s 994 494 m 11 X s 999 469 m -2 Y s 994 467 m 11 X s 1000 491 m 1 Y s 994 492 m 11 X s 1000 468 m s 994 468 m 11 X s 1000 491 m 4 Y s 994 495 m 12 X
s 1000 468 m -5 Y s 994 463 m 12 X s 1001 491 m 10 Y s 996 501 m 11 X s 1001 469 m -10 Y s 996 459 m 11 X s 1002 507 m 7 Y s 996 514 m 11 X s 1002 484 m -7 Y s 996 477 m 11 X s 1002 503 m 1 Y s 996 504 m 12 X s 1002 480 m s 996 480 m 12 X s 1002
491 m 4 Y s 997 495 m 11 X s 1002 468 m -4 Y s 997 464 m 11 X s 1003 505 m 8 Y s 997 513 m 12 X s 1003 482 m -8 Y s 997 474 m 12 X s 1003 487 m 11 Y s 998 498 m 11 X s 1003 464 m -11 Y s 998 453 m 11 X s 1004 489 m 5 Y s 998 494 m 11 X s 1004 466 m
-5 Y s 998 461 m 11 X s 1006 508 m 5 Y s 1000 513 m 11 X s 1006 485 m -5 Y s 1000 480 m 11 X s 1006 515 m 6 Y s 1000 521 m 12 X s 1006 492 m -6 Y s 1000 486 m 12 X s 1006 533 m 6 Y s 1001 539 m 11 X s 1006 510 m -5 Y s 1001 505 m 11 X s 1007 610 m
2 Y s 1002 612 m 11 X s 1007 587 m -1 Y s 1002 586 m 11 X s 1008 648 m 11 Y s 1002 659 m 12 X s 1008 625 m -11 Y s 1002 614 m 12 X s 1008 647 m 1 Y s 1003 648 m 11 X s 1008 625 m -1 Y s 1003 624 m 11 X s 1009 588 m 1 Y s 1004 589 m 11 X s 1009 565
m -1 Y s 1004 564 m 11 X s 1010 542 m 12 Y s 1004 554 m 11 X s 1010 520 m -12 Y s 1004 508 m 11 X s 1010 521 m 7 Y s 1004 528 m 12 X s 1010 498 m -6 Y s 1004 492 m 12 X s 1011 519 m 16 Y s 1005 535 m 11 X s 1011 496 m -16 Y s 1005 480 m 11 X s 1011
510 m 13 Y s 1005 523 m 12 X s 1011 487 m -13 Y s 1005 474 m 12 X s 1011 527 m 1 Y s 1006 528 m 11 X s 1011 504 m -1 Y s 1006 503 m 11 X s 1012 510 m 18 Y s 1006 528 m 11 X s 1012 487 m -18 Y s 1006 469 m 11 X s 1012 499 m 9 Y s 1006 508 m 12 X s
1012 476 m -9 Y s 1006 467 m 12 X s 1012 493 m 6 Y s 1007 499 m 11 X s 1012 470 m -7 Y s 1007 463 m 11 X s 1013 509 m 3 Y s 1007 512 m 12 X s 1013 486 m -2 Y s 1007 484 m 12 X s 1013 500 m 5 Y s 1007 505 m 12 X s 1013 477 m -4 Y s 1007 473 m 12 X s
1014 498 m 1 Y s 1008 499 m 11 X s 1014 476 m -1 Y s 1008 475 m 11 X s 1014 484 m 6 Y s 1008 490 m 12 X s 1014 461 m -6 Y s 1008 455 m 12 X s 1016 482 m 6 Y s 1010 488 m 12 X s 1016 459 m -6 Y s 1010 453 m 12 X s 1017 487 m 2 Y s 1011 489 m 11 X s
1017 464 m -2 Y s 1011 462 m 11 X s 1017 486 m 2 Y s 1011 488 m 12 X s 1017 463 m -2 Y s 1011 461 m 12 X s 1017 473 m 8 Y s 1012 481 m 11 X s 1017 450 m -8 Y s 1012 442 m 11 X s 1018 484 m 4 Y s 1012 488 m 12 X s 1018 461 m -5 Y s 1012 456 m 12 X s
1019 486 m 3 Y s 1013 489 m 11 X s 1019 463 m -2 Y s 1013 461 m 11 X s 1019 486 m 3 Y s 1014 489 m 11 X s 1019 463 m -2 Y s 1014 461 m 11 X s 1020 493 m 4 Y s 1014 497 m 11 X s 1020 470 m -5 Y s 1014 465 m 11 X s 1021 479 m 14 Y s 1015 493 m 12 X s
1021 456 m -14 Y s 1015 442 m 12 X s 1021 492 m 10 Y s 1016 502 m 11 X s 1021 469 m -9 Y s 1016 460 m 11 X s 1022 500 m s 1016 500 m 11 X s 1022 477 m s 1016 477 m 11 X s 1022 478 m 1 Y s 1016 479 m 12 X s 1022 455 m s 1016 455 m 12 X s 1022 517 m
1 Y s 1017 518 m 11 X s 1022 494 m s 1017 494 m 11 X s 1023 480 m s 1017 480 m 12 X s 1023 457 m s 1017 457 m 12 X s 1024 468 m 4 Y s 1018 472 m 12 X s 1024 446 m -4 Y s 1018 442 m 12 X s 1025 476 m 5 Y s 1020 481 m 11 X s 1025 454 m -5 Y s 1020
449 m 11 X s 1026 484 m 5 Y s 1020 489 m 12 X s 1026 461 m -5 Y s 1020 456 m 12 X s 1026 479 m 12 Y s 1021 491 m 11 X s 1026 456 m -12 Y s 1021 444 m 11 X s 1027 473 m 5 Y s 1021 478 m 11 X s 1027 450 m -5 Y s 1021 445 m 11 X s 1027 479 m 4 Y s
1021 483 m 12 X s 1027 456 m -5 Y s 1021 451 m 12 X s 1027 488 m 15 Y s 1022 503 m 11 X s 1027 466 m -15 Y s 1022 451 m 11 X s 1028 470 m 8 Y s 1022 478 m 11 X s 1028 447 m -8 Y s 1022 439 m 11 X s 1028 481 m 7 Y s 1022 488 m 12 X s 1028 458 m -7 Y
s 1022 451 m 12 X s 1029 517 m 1 Y s 1023 518 m 11 X s 1029 495 m s 1023 495 m 11 X s 1029 489 m 3 Y s 1023 492 m 12 X s 1029 466 m -4 Y s 1023 462 m 12 X s 1030 471 m 15 Y s 1024 486 m 11 X s 1030 448 m -15 Y s 1024 433 m 11 X s 1030 478 m 6 Y s
1024 484 m 12 X s 1030 455 m -5 Y s 1024 450 m 12 X s 1030 476 m 1 Y s 1025 477 m 11 X s 1030 453 m s 1025 453 m 11 X s 1031 493 m 6 Y s 1025 499 m 12 X s 1031 471 m -6 Y s 1025 465 m 12 X s 1031 501 m 2 Y s 1026 503 m 11 X s 1031 478 m -1 Y s 1026
477 m 11 X s 1032 493 m 5 Y s 1026 498 m 11 X s 1032 470 m -5 Y s 1026 465 m 11 X s 1032 487 m 1 Y s 1027 488 m 11 X s 1032 464 m s 1027 464 m 11 X s 1033 494 m 3 Y s 1027 497 m 11 X s 1033 471 m -3 Y s 1027 468 m 11 X s 1033 488 m 3 Y s 1027 491 m
12 X s 1033 465 m -3 Y s 1027 462 m 12 X s 1034 473 m 5 Y s 1028 478 m 12 X s 1034 450 m -5 Y s 1028 445 m 12 X s 1034 501 m 2 Y s 1029 503 m 11 X s 1034 479 m -2 Y s 1029 477 m 11 X s 1035 531 m 1 Y s 1029 532 m 12 X s 1035 508 m -1 Y s 1029 507 m
12 X s 1038 516 m 2 Y s 1032 518 m 12 X s 1038 493 m -2 Y s 1032 491 m 12 X s 1039 523 m 9 Y s 1033 532 m 11 X s 1039 500 m -9 Y s 1033 491 m 11 X s 1039 518 m 3 Y s 1033 521 m 12 X s 1039 496 m -3 Y s 1033 493 m 12 X s 1040 491 m 2 Y s 1034 493 m
12 X s 1040 468 m -2 Y s 1034 466 m 12 X s 1040 506 m s 1035 506 m 11 X s 1040 483 m s 1035 483 m 11 X s 1042 504 m s 1037 504 m 11 X s 1042 481 m s 1037 481 m 11 X s 1046 485 m 7 Y s 1040 492 m 12 X s 1046 463 m -7 Y s 1040 456 m 12 X s 1046 512 m
3 Y s 1041 515 m 11 X s 1046 489 m -3 Y s 1041 486 m 11 X s 1047 499 m 11 Y s 1041 510 m 12 X s 1047 476 m -11 Y s 1041 465 m 12 X s 1047 506 m 4 Y s 1042 510 m 11 X s 1047 484 m -4 Y s 1042 480 m 11 X s 1050 484 m 4 Y s 1045 488 m 11 X s 1050 461
m -3 Y s 1045 458 m 11 X s 1051 511 m s 1046 511 m 11 X s 1051 488 m s 1046 488 m 11 X s 1052 486 m 6 Y s 1046 492 m 12 X s 1052 464 m -6 Y s 1046 458 m 12 X s 1057 509 m 15 Y s 1051 524 m 12 X s 1057 487 m -15 Y s 1051 472 m 12 X s 1057 504 m 4 Y
s 1052 508 m 11 X s 1057 482 m -4 Y s 1052 478 m 11 X s 1058 485 m 5 Y s 1052 490 m 11 X s 1058 462 m -4 Y s 1052 458 m 11 X s 1058 489 m 1 Y s 1052 490 m 12 X s 1058 466 m -1 Y s 1052 465 m 12 X s 1059 489 m 2 Y s 1053 491 m 11 X s 1059 466 m -2 Y
s 1053 464 m 11 X s 1059 496 m 3 Y s 1054 499 m 11 X s 1059 473 m -4 Y s 1054 469 m 11 X s 1060 496 m 9 Y s 1054 505 m 11 X s 1060 473 m -9 Y s 1054 464 m 11 X s 1060 488 m 4 Y s 1055 492 m 11 X s 1060 465 m -4 Y s 1055 461 m 11 X s 1061 488 m 5 Y
s 1055 493 m 12 X s 1061 465 m -5 Y s 1055 460 m 12 X s 1061 493 m s 1056 493 m 11 X s 1061 470 m s 1056 470 m 11 X s 1062 488 m 3 Y s 1056 491 m 11 X s 1062 466 m -4 Y s 1056 462 m 11 X s 1062 481 m 4 Y s 1056 485 m 12 X s 1062 458 m -4 Y s 1056
454 m 12 X s 1062 486 m 6 Y s 1057 492 m 11 X s 1062 463 m -6 Y s 1057 457 m 11 X s 1063 480 m 1 Y s 1057 481 m 11 X s 1063 457 m -1 Y s 1057 456 m 11 X s 1065 477 m 6 Y s 1059 483 m 11 X s 1065 454 m -5 Y s 1059 449 m 11 X s 1065 485 m 2 Y s 1059
487 m 12 X s 1065 462 m -1 Y s 1059 461 m 12 X s 1066 483 m 1 Y s 1060 484 m 12 X s 1066 461 m -1 Y s 1060 460 m 12 X s 1066 493 m 3 Y s 1061 496 m 11 X s 1066 470 m -2 Y s 1061 468 m 11 X s 1067 515 m 4 Y s 1061 519 m 11 X s 1067 493 m -4 Y s 1061
489 m 11 X s 1067 493 m 5 Y s 1061 498 m 12 X s 1067 470 m -5 Y s 1061 465 m 12 X s 1068 501 m 4 Y s 1062 505 m 11 X s 1068 478 m -5 Y s 1062 473 m 11 X s 1071 540 m 2 Y s 1065 542 m 12 X s 1071 518 m -2 Y s 1065 516 m 12 X s 1072 535 m 2 Y s 1066
537 m 11 X s 1072 513 m -2 Y s 1066 511 m 11 X s 1072 517 m 4 Y s 1066 521 m 12 X s 1072 494 m -4 Y s 1066 490 m 12 X s 1074 493 m 6 Y s 1068 499 m 12 X s 1074 470 m -7 Y s 1068 463 m 12 X s 1075 504 m 7 Y s 1069 511 m 12 X s 1075 481 m -6 Y s 1069
475 m 12 X s 1075 510 m 4 Y s 1070 514 m 11 X s 1075 487 m -5 Y s 1070 482 m 11 X s 1076 496 m 3 Y s 1070 499 m 12 X s 1076 473 m -2 Y s 1070 471 m 12 X s 1077 507 m 8 Y s 1071 515 m 11 X s 1077 484 m -9 Y s 1071 475 m 11 X s 1077 507 m 2 Y s 1071
509 m 12 X s 1077 484 m -1 Y s 1071 483 m 12 X s 1077 511 m 1 Y s 1072 512 m 11 X s 1077 488 m -1 Y s 1072 487 m 11 X s 1078 531 m 4 Y s 1072 535 m 12 X s 1078 508 m -4 Y s 1072 504 m 12 X s 1078 510 m 5 Y s 1073 515 m 11 X s 1078 488 m -5 Y s 1073
483 m 11 X s 1079 524 m 2 Y s 1073 526 m 12 X s 1079 501 m -2 Y s 1073 499 m 12 X s 1080 497 m 6 Y s 1074 503 m 11 X s 1080 474 m -6 Y s 1074 468 m 11 X s 1080 511 m 4 Y s 1074 515 m 12 X s 1080 489 m -4 Y s 1074 485 m 12 X s 1080 503 m 4 Y s 1075
507 m 11 X s 1080 481 m -4 Y s 1075 477 m 11 X s 1082 505 m 8 Y s 1077 513 m 11 X s 1082 482 m -8 Y s 1077 474 m 11 X s 1083 532 m 4 Y s 1077 536 m 11 X s 1083 509 m -4 Y s 1077 505 m 11 X s 1083 526 m 4 Y s 1077 530 m 12 X s 1083 503 m -4 Y s 1077
499 m 12 X s 1083 523 m 2 Y s 1078 525 m 11 X s 1083 501 m -2 Y s 1078 499 m 11 X s 1086 560 m 5 Y s 1080 565 m 11 X s 1086 537 m -4 Y s 1080 533 m 11 X s 1088 585 m 9 Y s 1082 594 m 11 X s 1088 562 m -8 Y s 1082 554 m 11 X s 1088 573 m 2 Y s 1082
575 m 12 X s 1088 550 m -2 Y s 1082 548 m 12 X s 1089 602 m 3 Y s 1083 605 m 12 X s 1089 580 m -3 Y s 1083 577 m 12 X s 1090 609 m 10 Y s 1084 619 m 11 X s 1090 586 m -10 Y s 1084 576 m 11 X s 1090 609 m 3 Y s 1084 612 m 12 X s 1090 587 m -3 Y s
1084 584 m 12 X s 1093 740 m 2 Y s 1087 742 m 12 X s 1093 717 m -2 Y s 1087 715 m 12 X s 1095 837 m 1 Y s 1089 838 m 11 X s 1095 814 m -2 Y s 1089 812 m 11 X s 1095 894 m 7 Y s 1089 901 m 12 X s 1095 871 m -7 Y s 1089 864 m 12 X s 1095 956 m 5 Y s
1090 961 m 11 X s 1095 933 m -4 Y s 1090 929 m 11 X s 1096 1024 m 14 Y s 1090 1038 m 11 X s 1096 1001 m -14 Y s 1090 987 m 11 X s 1096 1094 m 13 Y s 1090 1107 m 12 X s 1096 1071 m -13 Y s 1090 1058 m 12 X s 1097 1203 m 21 Y s 1091 1224 m 11 X s
1097 1180 m -21 Y s 1091 1159 m 11 X s 1097 1321 m 20 Y s 1091 1341 m 12 X s 1097 1298 m -20 Y s 1091 1278 m 12 X s 1097 1533 m 61 Y s 1092 1594 m 11 X s 1097 1510 m -60 Y s 1092 1450 m 11 X s 1098 1833 m 36 Y s 1092 1869 m 11 X s 1098 1810 m -77 Y
s 1092 1733 m 11 X s 1103 1683 m 52 Y s 1097 1735 m 12 X s 1103 1660 m -52 Y s 1097 1608 m 12 X s 1103 1507 m 32 Y s 1098 1539 m 11 X s 1103 1484 m -32 Y s 1098 1452 m 11 X s 1104 1399 m 20 Y s 1098 1419 m 12 X s 1104 1376 m -20 Y s 1098 1356 m 12
X s 1104 1347 m 11 Y s 1099 1358 m 11 X s 1104 1324 m -11 Y s 1099 1313 m 11 X s 1105 1279 m 9 Y s 1099 1288 m 11 X s 1105 1257 m -9 Y s 1099 1248 m 11 X s 1106 1279 m 1 Y s 1100 1280 m 12 X s 1106 1256 m -2 Y s 1100 1254 m 12 X s 1107 1355 m 13 Y
s 1101 1368 m 11 X s 1107 1332 m -13 Y s 1101 1319 m 11 X s 1107 1454 m 16 Y s 1101 1470 m 12 X s 1107 1431 m -15 Y s 1101 1416 m 12 X s 1107 1581 m 27 Y s 1102 1608 m 11 X s 1107 1558 m -27 Y s 1102 1531 m 11 X s 1108 1757 m 42 Y s 1102 1799 m 11
X s 1108 1735 m -42 Y s 1102 1693 m 11 X s 1113 1583 m 80 Y s 1107 1663 m 12 X s 1113 1560 m -79 Y s 1107 1481 m 12 X s 1113 1363 m 35 Y s 1108 1398 m 11 X s 1113 1340 m -34 Y s 1108 1306 m 11 X s 1114 1192 m 34 Y s 1108 1226 m 12 X s 1114 1169 m
-34 Y s 1108 1135 m 12 X s 1114 1074 m 15 Y s 1109 1089 m 11 X s 1114 1052 m -14 Y s 1109 1038 m 11 X s 1115 1000 m 5 Y s 1109 1005 m 11 X s 1115 977 m -5 Y s 1109 972 m 11 X s 1115 939 m 6 Y s 1109 945 m 12 X s 1115 916 m -6 Y s 1109 910 m 12 X s
1115 880 m 6 Y s 1110 886 m 11 X s 1115 857 m -6 Y s 1110 851 m 11 X s 1116 820 m 6 Y s 1110 826 m 11 X s 1116 797 m -6 Y s 1110 791 m 11 X s 1116 769 m 5 Y s 1110 774 m 12 X s 1116 746 m -5 Y s 1110 741 m 12 X s 1118 629 m 1 Y s 1113 630 m 11 X s
1118 606 m -1 Y s 1113 605 m 11 X s 1124 543 m 4 Y s 1118 547 m 12 X s 1124 520 m -4 Y s 1118 516 m 12 X s 1124 514 m 2 Y s 1119 516 m 11 X s 1124 492 m -2 Y s 1119 490 m 11 X s 1127 492 m 2 Y s 1121 494 m 11 X s 1127 469 m -1 Y s 1121 468 m 11 X s
1131 487 m 7 Y s 1125 494 m 11 X s 1131 464 m -7 Y s 1125 457 m 11 X s 1131 486 m 1 Y s 1125 487 m 12 X s 1131 463 m -2 Y s 1125 461 m 12 X s 1134 484 m 1 Y s 1128 485 m 12 X s 1134 461 m -1 Y s 1128 460 m 12 X s 1136 438 m 5 Y s 1130 443 m 12 X s
1136 415 m -5 Y s 1130 410 m 12 X s 1137 466 m 13 Y s 1131 479 m 11 X s 1137 443 m -14 Y s 1131 429 m 11 X s 1143 488 m 7 Y s 1138 495 m 11 X s 1143 465 m -7 Y s 1138 458 m 11 X s 1144 465 m 3 Y s 1138 468 m 11 X s 1144 442 m -3 Y s 1138 439 m 11 X
s 1148 465 m 1 Y s 1143 466 m 11 X s 1148 442 m -1 Y s 1143 441 m 11 X s 1151 449 m 2 Y s 1146 451 m 11 X s 1151 427 m -2 Y s 1146 425 m 11 X s 1152 449 m 2 Y s 1146 451 m 12 X s 1152 426 m -2 Y s 1146 424 m 12 X s 1154 449 m s 1148 449 m 11 X s
1154 426 m s 1148 426 m 11 X s 1162 455 m 1 Y s 1156 456 m 12 X s 1162 432 m -1 Y s 1156 431 m 12 X s 1162 469 m 3 Y s 1157 472 m 11 X s 1162 446 m -2 Y s 1157 444 m 11 X s 1167 439 m 1 Y s 1161 440 m 12 X s 1167 416 m -1 Y s 1161 415 m 12 X s 1172
438 m 1 Y s 1167 439 m 11 X s 1172 415 m -1 Y s 1167 414 m 11 X s 1173 435 m 1 Y s 1167 436 m 11 X s 1173 413 m -1 Y s 1167 412 m 11 X s 1181 439 m 1 Y s 1175 440 m 12 X s 1181 416 m s 1175 416 m 12 X s 1183 433 m 9 Y s 1178 442 m 11 X s 1183 410 m
-9 Y s 1178 401 m 11 X s 1184 440 m 1 Y s 1178 441 m 11 X s 1184 417 m -2 Y s 1178 415 m 11 X s 1184 442 m 3 Y s 1178 445 m 12 X s 1184 419 m -3 Y s 1178 416 m 12 X s 1185 410 m 26 Y s 1179 436 m 11 X s 1185 387 m -27 Y s 1179 360 m 11 X s 1185 406
m 18 Y s 1179 424 m 12 X s 1185 383 m -18 Y s 1179 365 m 12 X s 1185 409 m 13 Y s 1180 422 m 11 X s 1185 386 m -13 Y s 1180 373 m 11 X s 1186 400 m 1 Y s 1180 401 m 11 X s 1186 377 m -1 Y s 1180 376 m 11 X s 1186 424 m 1 Y s 1180 425 m 12 X s 1186
402 m -1 Y s 1180 401 m 12 X s 1190 469 m 8 Y s 1184 477 m 12 X s 1190 446 m -9 Y s 1184 437 m 12 X s 1190 462 m 13 Y s 1185 475 m 11 X s 1190 439 m -12 Y s 1185 427 m 11 X s 1191 425 m 1 Y s 1186 426 m 11 X s 1191 402 m -1 Y s 1186 401 m 11 X s
1196 439 m 2 Y s 1190 441 m 12 X s 1196 416 m -3 Y s 1190 413 m 12 X s 1198 425 m 7 Y s 1192 432 m 11 X s 1198 402 m -7 Y s 1192 395 m 11 X s 1198 429 m 4 Y s 1193 433 m 11 X s 1198 407 m -4 Y s 1193 403 m 11 X s 1199 428 m s 1193 428 m 11 X s 1199
405 m -1 Y s 1193 404 m 11 X s 1200 423 m 13 Y s 1194 436 m 12 X s 1200 401 m -13 Y s 1194 388 m 12 X s 1201 437 m 10 Y s 1195 447 m 11 X s 1201 415 m -11 Y s 1195 404 m 11 X s 1201 427 m 1 Y s 1195 428 m 12 X s 1201 404 m s 1195 404 m 12 X s 1202
441 m 2 Y s 1196 443 m 12 X s 1202 419 m -2 Y s 1196 417 m 12 X s 1203 440 m 3 Y s 1197 443 m 11 X s 1203 418 m -3 Y s 1197 415 m 11 X s 1203 447 m 4 Y s 1198 451 m 11 X s 1203 424 m -4 Y s 1198 420 m 11 X s 1204 439 m 3 Y s 1198 442 m 11 X s 1204
417 m -4 Y s 1198 413 m 11 X s 1204 433 m 6 Y s 1199 439 m 11 X s 1204 410 m -5 Y s 1199 405 m 11 X s 1205 439 m 9 Y s 1199 448 m 12 X s 1205 416 m -9 Y s 1199 407 m 12 X s 1210 437 m 1 Y s 1205 438 m 11 X s 1210 414 m -1 Y s 1205 413 m 11 X s 1215
468 m 2 Y s 1209 470 m 12 X s 1215 445 m -2 Y s 1209 443 m 12 X s 1216 471 m s 1210 471 m 11 X s 1216 448 m s 1210 448 m 11 X s 1224 423 m 1 Y s 1218 424 m 11 X s 1224 400 m s 1218 400 m 11 X s 1226 433 m 4 Y s 1221 437 m 11 X s 1226 410 m -3 Y s
1221 407 m 11 X s 1227 424 m 1 Y s 1221 425 m 11 X s 1227 401 m -1 Y s 1221 400 m 11 X s 1230 421 m 3 Y s 1224 424 m 12 X s 1230 398 m -3 Y s 1224 395 m 12 X s 1231 429 m 1 Y s 1225 430 m 11 X s 1231 406 m -1 Y s 1225 405 m 11 X s 1234 422 m 2 Y s
1228 424 m 12 X s 1234 399 m -1 Y s 1228 398 m 12 X s 1237 422 m 1 Y s 1231 423 m 11 X s 1237 399 m -1 Y s 1231 398 m 11 X s 1239 446 m 1 Y s 1233 447 m 11 X s 1239 423 m -1 Y s 1233 422 m 11 X s 1239 435 m 5 Y s 1233 440 m 12 X s 1239 413 m -4 Y s
1233 409 m 12 X s 1245 428 m 1 Y s 1239 429 m 12 X s 1245 405 m s 1239 405 m 12 X s 1245 416 m 4 Y s 1240 420 m 11 X s 1245 393 m -3 Y s 1240 390 m 11 X s 1246 440 m 2 Y s 1240 442 m 11 X s 1246 418 m -2 Y s 1240 416 m 11 X s 1246 442 m 1 Y s 1240
443 m 12 X s 1246 420 m -1 Y s 1240 419 m 12 X s 1249 420 m 7 Y s 1244 427 m 11 X s 1249 397 m -7 Y s 1244 390 m 11 X s 1254 433 m 1 Y s 1249 434 m 11 X s 1254 410 m -1 Y s 1249 409 m 11 X s 1255 446 m 6 Y s 1249 452 m 12 X s 1255 423 m -6 Y s 1249
417 m 12 X s 1269 435 m 1 Y s 1263 436 m 11 X s 1269 412 m -1 Y s 1263 411 m 11 X s 1273 434 m 4 Y s 1267 438 m 12 X s 1273 412 m -4 Y s 1267 408 m 12 X s 1274 428 m 4 Y s 1269 432 m 11 X s 1274 405 m -3 Y s 1269 402 m 11 X s 1303 434 m 2 Y s 1297
436 m 12 X s 1303 411 m -2 Y s 1297 409 m 12 X s 1303 416 m 6 Y s 1298 422 m 11 X s 1303 393 m -6 Y s 1298 387 m 11 X s 1304 421 m 1 Y s 1299 422 m 11 X s 1304 399 m -1 Y s 1299 398 m 11 X s 1305 424 m 2 Y s 1299 426 m 11 X s 1305 401 m -2 Y s 1299
399 m 11 X s 1306 424 m 1 Y s 1300 425 m 11 X s 1306 401 m -1 Y s 1300 400 m 11 X s 1306 425 m 6 Y s 1300 431 m 12 X s 1306 402 m -6 Y s 1300 396 m 12 X s 1307 423 m 7 Y s 1301 430 m 12 X s 1307 400 m -7 Y s 1301 393 m 12 X s 1307 427 m s 1302 427
m 11 X s 1307 404 m s 1302 404 m 11 X s 1309 415 m 2 Y s 1303 417 m 12 X s 1309 392 m -2 Y s 1303 390 m 12 X s 1313 430 m 6 Y s 1308 436 m 11 X s 1313 407 m -6 Y s 1308 401 m 11 X s 1316 440 m s 1310 440 m 12 X s 1316 417 m -1 Y s 1310 416 m 12 X s
1316 426 m 1 Y s 1311 427 m 11 X s 1316 403 m s 1311 403 m 11 X s 1317 430 m 6 Y s 1311 436 m 12 X s 1317 407 m -5 Y s 1311 402 m 12 X s 1318 434 m 9 Y s 1312 443 m 12 X s 1318 411 m -10 Y s 1312 401 m 12 X s 1325 603 m 5 Y s 1319 608 m 11 X s 1325
581 m -5 Y s 1319 576 m 11 X s 1325 744 m 21 Y s 1319 765 m 12 X s 1325 721 m -21 Y s 1319 700 m 12 X s 1326 1078 m 84 Y s 1320 1162 m 11 X s 1326 1055 m -84 Y s 1320 971 m 11 X s 1326 1618 m 130 Y s 1320 1748 m 12 X s 1326 1595 m -131 Y s 1320
1464 m 12 X s 1327 1546 m 81 Y s 1322 1627 m 11 X s 1327 1523 m -82 Y s 1322 1441 m 11 X s 1328 1092 m 66 Y s 1322 1158 m 12 X s 1328 1069 m -67 Y s 1322 1002 m 12 X s 1328 822 m 38 Y s 1322 860 m 12 X s 1328 800 m -38 Y s 1322 762 m 12 X s 1329
660 m 21 Y s 1323 681 m 11 X s 1329 637 m -22 Y s 1323 615 m 11 X s 1329 590 m 15 Y s 1323 605 m 12 X s 1329 567 m -14 Y s 1323 553 m 12 X s 1329 559 m 3 Y s 1324 562 m 11 X s 1329 536 m -3 Y s 1324 533 m 11 X s 1337 498 m 1 Y s 1332 499 m 11 X s
1337 475 m s 1332 475 m 11 X s 1338 513 m 3 Y s 1332 516 m 12 X s 1338 490 m -2 Y s 1332 488 m 12 X s 1339 509 m s 1333 509 m 11 X s 1339 486 m -1 Y s 1333 485 m 11 X s 1340 575 m 7 Y s 1334 582 m 11 X s 1340 552 m -6 Y s 1334 546 m 11 X s 1341 749
m 7 Y s 1335 756 m 12 X s 1341 726 m -6 Y s 1335 720 m 12 X s 1341 852 m 11 Y s 1336 863 m 11 X s 1341 830 m -11 Y s 1336 819 m 11 X s 1342 1018 m 31 Y s 1336 1049 m 11 X s 1342 995 m -31 Y s 1336 964 m 11 X s 1342 1415 m 95 Y s 1336 1510 m 12 X s
1342 1393 m -95 Y s 1336 1298 m 12 X s 1345 1556 m 159 Y s 1339 1715 m 12 X s 1345 1533 m -160 Y s 1339 1373 m 12 X s 1345 1020 m 76 Y s 1340 1096 m 11 X s 1345 997 m -76 Y s 1340 921 m 11 X s 1346 804 m 28 Y s 1340 832 m 12 X s 1346 782 m -28 Y s
1340 754 m 12 X s 1346 700 m 8 Y s 1341 708 m 11 X s 1346 677 m -8 Y s 1341 669 m 11 X s 1347 619 m 6 Y s 1341 625 m 11 X s 1347 596 m -6 Y s 1341 590 m 11 X s 1347 586 m 2 Y s 1341 588 m 12 X s 1347 563 m -1 Y s 1341 562 m 12 X s 1348 538 m 2 Y s
1342 540 m 11 X s 1348 515 m -3 Y s 1342 512 m 11 X s 1355 430 m s 1349 430 m 11 X s 1355 407 m s 1349 407 m 11 X s 1362 414 m 3 Y s 1356 417 m 12 X s 1362 391 m -3 Y s 1356 388 m 12 X s 1366 414 m 3 Y s 1360 417 m 12 X s 1366 391 m -3 Y s 1360 388
m 12 X s 1370 405 m 1 Y s 1364 406 m 12 X s 1370 382 m -1 Y s 1364 381 m 12 X s 1371 428 m 7 Y s 1365 435 m 12 X s 1371 406 m -7 Y s 1365 399 m 12 X s 1377 409 m s 1371 409 m 11 X s 1377 386 m -1 Y s 1371 385 m 11 X s 1380 398 m 3 Y s 1374 401 m 12
X s 1380 376 m -3 Y s 1374 373 m 12 X s 1389 393 m 6 Y s 1383 399 m 11 X s 1389 370 m -6 Y s 1383 364 m 11 X s 1391 390 m 6 Y s 1385 396 m 12 X s 1391 367 m -7 Y s 1385 360 m 12 X s 1392 396 m 1 Y s 1387 397 m 11 X s 1392 373 m s 1387 373 m 11 X s
1393 379 m s 1387 379 m 11 X s 1393 356 m s 1387 356 m 11 X s 1395 378 m 2 Y s 1390 380 m 11 X s 1395 355 m -2 Y s 1390 353 m 11 X s 1403 397 m 3 Y s 1397 400 m 11 X s 1403 374 m -2 Y s 1397 372 m 11 X s 1411 396 m s 1405 396 m 12 X s 1411 373 m s
1405 373 m 12 X s 1412 404 m 1 Y s 1407 405 m 11 X s 1412 382 m -1 Y s 1407 381 m 11 X s 1413 405 m s 1407 405 m 11 X s 1413 382 m s 1407 382 m 11 X s 1414 402 m 3 Y s 1409 405 m 11 X s 1414 379 m -3 Y s 1409 376 m 11 X s 1415 389 m 1 Y s 1409 390
m 12 X s 1415 366 m -1 Y s 1409 365 m 12 X s 1422 384 m 1 Y s 1416 385 m 11 X s 1422 361 m -1 Y s 1416 360 m 11 X s 1423 393 m s 1417 393 m 12 X s 1423 370 m -1 Y s 1417 369 m 12 X s 1423 409 m 4 Y s 1418 413 m 11 X s 1423 386 m -5 Y s 1418 381 m
11 X s 1424 404 m 2 Y s 1418 406 m 12 X s 1424 382 m -2 Y s 1418 380 m 12 X s 1435 389 m s 1429 389 m 12 X s 1435 366 m s 1429 366 m 12 X s 1437 390 m 1 Y s 1431 391 m 11 X s 1437 367 m s 1431 367 m 11 X s 1438 373 m s 1432 373 m 11 X s 1438 350 m
-1 Y s 1432 349 m 11 X s 1445 389 m s 1439 389 m 11 X s 1445 366 m s 1439 366 m 11 X s 1446 377 m s 1440 377 m 12 X s 1446 354 m -1 Y s 1440 353 m 12 X s 1457 416 m 6 Y s 1452 422 m 11 X s 1457 393 m -6 Y s 1452 387 m 11 X s 1458 410 m 1 Y s 1452
411 m 11 X s 1458 388 m -1 Y s 1452 387 m 11 X s 1466 416 m 1 Y s 1460 417 m 11 X s 1466 393 m -1 Y s 1460 392 m 11 X s 1467 417 m 4 Y s 1461 421 m 12 X s 1467 394 m -4 Y s 1461 390 m 12 X s 1467 409 m 1 Y s 1462 410 m 11 X s 1467 387 m -1 Y s 1462
386 m 11 X s 1491 391 m s 1485 391 m 11 X s 1491 368 m s 1485 368 m 11 X s 1491 406 m 3 Y s 1485 409 m 12 X s 1491 383 m -2 Y s 1485 381 m 12 X s 1496 423 m 1 Y s 1491 424 m 11 X s 1496 400 m -1 Y s 1491 399 m 11 X s 1499 428 m 1 Y s 1493 429 m 11
X s 1499 405 m -2 Y s 1493 403 m 11 X s 1499 406 m 7 Y s 1493 413 m 12 X s 1499 383 m -8 Y s 1493 375 m 12 X s 1500 408 m 2 Y s 1494 410 m 11 X s 1500 385 m -3 Y s 1494 382 m 11 X s 1504 414 m 3 Y s 1498 417 m 11 X s 1504 392 m -3 Y s 1498 389 m 11
X s 1504 419 m 3 Y s 1498 422 m 12 X s 1504 397 m -3 Y s 1498 394 m 12 X s 1505 413 m 2 Y s 1499 415 m 12 X s 1505 391 m -2 Y s 1499 389 m 12 X s 1506 431 m s 1501 431 m 11 X s 1506 408 m -1 Y s 1501 407 m 11 X s 1513 422 m 1 Y s 1507 423 m 12 X s
1513 399 m -1 Y s 1507 398 m 12 X s 1513 426 m s 1508 426 m 11 X s 1513 404 m -1 Y s 1508 403 m 11 X s 1517 438 m 5 Y s 1512 443 m 11 X s 1517 415 m -5 Y s 1512 410 m 11 X s 1518 455 m 1 Y s 1512 456 m 11 X s 1518 432 m -1 Y s 1512 431 m 11 X s
1519 453 m s 1514 453 m 11 X s 1519 431 m -1 Y s 1514 430 m 11 X s 1522 465 m 1 Y s 1516 466 m 11 X s 1522 442 m -1 Y s 1516 441 m 11 X s 1531 633 m 2 Y s 1525 635 m 11 X s 1531 610 m -2 Y s 1525 608 m 11 X s 1531 665 m 7 Y s 1525 672 m 12 X s 1531
643 m -7 Y s 1525 636 m 12 X s 1531 686 m 3 Y s 1526 689 m 11 X s 1531 663 m -2 Y s 1526 661 m 11 X s 1532 712 m 4 Y s 1526 716 m 12 X s 1532 689 m -4 Y s 1526 685 m 12 X s 1533 781 m 14 Y s 1527 795 m 11 X s 1533 758 m -14 Y s 1527 744 m 11 X s
1533 861 m 10 Y s 1527 871 m 12 X s 1533 838 m -10 Y s 1527 828 m 12 X s 1533 922 m 8 Y s 1528 930 m 11 X s 1533 899 m -7 Y s 1528 892 m 11 X s 1534 988 m 15 Y s 1528 1003 m 11 X s 1534 966 m -15 Y s 1528 951 m 11 X s 1534 1097 m 30 Y s 1528 1127 m
12 X s 1534 1074 m -30 Y s 1528 1044 m 12 X s 1534 1261 m 47 Y s 1529 1308 m 11 X s 1534 1238 m -47 Y s 1529 1191 m 11 X s 1535 1503 m 81 Y s 1529 1584 m 12 X s 1535 1480 m -81 Y s 1529 1399 m 12 X s 1535 1854 m -126 Y s 1530 1728 m 11 X s 1539
1757 m 96 Y s 1533 1853 m 12 X s 1539 1734 m -96 Y s 1533 1638 m 12 X s 1539 1413 m 87 Y s 1534 1500 m 11 X s 1539 1390 m -86 Y s 1534 1304 m 11 X s 1540 1174 m 44 Y s 1534 1218 m 12 X s 1540 1152 m -44 Y s 1534 1108 m 12 X s 1540 1038 m 19 Y s
1535 1057 m 11 X s 1540 1015 m -19 Y s 1535 996 m 11 X s 1541 941 m 17 Y s 1535 958 m 11 X s 1541 918 m -17 Y s 1535 901 m 11 X s 1541 858 m 12 Y s 1535 870 m 12 X s 1541 835 m -13 Y s 1535 822 m 12 X s 1542 762 m 5 Y s 1536 767 m 11 X s 1542 739 m
-5 Y s 1536 734 m 11 X s 1542 712 m 2 Y s 1536 714 m 12 X s 1542 689 m -2 Y s 1536 687 m 12 X s 1544 594 m 1 Y s 1538 595 m 11 X s 1544 572 m -1 Y s 1538 571 m 11 X s 1544 546 m s 1539 546 m 11 X s 1544 523 m s 1539 523 m 11 X s 1545 563 m 6 Y s
1539 569 m 12 X s 1545 540 m -6 Y s 1539 534 m 12 X s 1546 550 m 13 Y s 1540 563 m 11 X s 1546 527 m -13 Y s 1540 514 m 11 X s 1546 534 m 12 Y s 1540 546 m 12 X s 1546 511 m -13 Y s 1540 498 m 12 X s 1546 526 m 6 Y s 1541 532 m 11 X s 1546 503 m -6
Y s 1541 497 m 11 X s 1547 525 m 5 Y s 1541 530 m 11 X s 1547 502 m -5 Y s 1541 497 m 11 X s 1547 521 m 2 Y s 1541 523 m 12 X s 1547 498 m -1 Y s 1541 497 m 12 X s 1548 508 m 7 Y s 1542 515 m 11 X s 1548 486 m -7 Y s 1542 479 m 11 X s 1548 505 m 8
Y s 1542 513 m 12 X s 1548 482 m -8 Y s 1542 474 m 12 X s 1548 486 m 11 Y s 1543 497 m 11 X s 1548 463 m -11 Y s 1543 452 m 11 X s 1549 473 m 10 Y s 1543 483 m 11 X s 1549 450 m -11 Y s 1543 439 m 11 X s 1549 480 m 3 Y s 1543 483 m 12 X s 1549 458
m -3 Y s 1543 455 m 12 X s 1549 494 m 2 Y s 1544 496 m 11 X s 1549 472 m -2 Y s 1544 470 m 11 X s 1550 498 m s 1544 498 m 12 X s 1550 475 m s 1544 475 m 12 X s 1552 485 m 8 Y s 1546 493 m 11 X s 1552 462 m -8 Y s 1546 454 m 11 X s 1552 486 m 6 Y s
1546 492 m 12 X s 1552 463 m -6 Y s 1546 457 m 12 X s 1554 484 m s 1548 484 m 11 X s 1554 461 m s 1548 461 m 11 X s 1554 476 m s 1548 476 m 12 X s 1554 453 m s 1548 453 m 12 X s 1557 457 m 1 Y s 1551 458 m 12 X s 1557 435 m -1 Y s 1551 434 m 12 X s
1558 454 m s 1552 454 m 11 X s 1558 431 m -1 Y s 1552 430 m 11 X s 1559 447 m 5 Y s 1554 452 m 11 X s 1559 424 m -5 Y s 1554 419 m 11 X s 1560 447 m 5 Y s 1554 452 m 12 X s 1560 424 m -5 Y s 1554 419 m 12 X s 1561 442 m 2 Y s 1556 444 m 11 X s 1561
419 m -1 Y s 1556 418 m 11 X s 1562 445 m 6 Y s 1556 451 m 11 X s 1562 422 m -5 Y s 1556 417 m 11 X s 1562 445 m 3 Y s 1556 448 m 12 X s 1562 422 m -3 Y s 1556 419 m 12 X s 1564 444 m 1 Y s 1558 445 m 11 X s 1564 421 m -2 Y s 1558 419 m 11 X s 1564
434 m s 1558 434 m 12 X s 1564 411 m s 1558 411 m 12 X s 1566 435 m s 1560 435 m 11 X s 1566 412 m -1 Y s 1560 411 m 11 X s 1567 425 m 1 Y s 1561 426 m 11 X s 1567 403 m s 1561 403 m 11 X s 1568 445 m 1 Y s 1562 446 m 12 X s 1568 422 m -1 Y s 1562
421 m 12 X s 1568 445 m 3 Y s 1563 448 m 11 X s 1568 422 m -3 Y s 1563 419 m 11 X s 1573 501 m 2 Y s 1568 503 m 11 X s 1573 479 m -2 Y s 1568 477 m 11 X s 1574 525 m 3 Y s 1568 528 m 11 X s 1574 503 m -3 Y s 1568 500 m 11 X s 1574 521 m 2 Y s 1568
523 m 12 X s 1574 498 m -3 Y s 1568 495 m 12 X s 1578 445 m 1 Y s 1572 446 m 11 X s 1578 423 m -1 Y s 1572 422 m 11 X s 1579 436 m 1 Y s 1573 437 m 11 X s 1579 413 m s 1573 413 m 11 X s 1579 427 m 1 Y s 1573 428 m 12 X s 1579 404 m -1 Y s 1573 403
m 12 X s 1582 421 m 1 Y s 1577 422 m 11 X s 1582 398 m -2 Y s 1577 396 m 11 X s 1583 422 m 2 Y s 1577 424 m 12 X s 1583 399 m -3 Y s 1577 396 m 12 X s 1587 420 m 1 Y s 1581 421 m 11 X s 1587 398 m -2 Y s 1581 396 m 11 X s 1587 418 m 3 Y s 1581 421
m 12 X s 1587 396 m -3 Y s 1581 393 m 12 X s 1595 406 m 1 Y s 1589 407 m 11 X s 1595 383 m s 1589 383 m 11 X s 1604 417 m 1 Y s 1599 418 m 11 X s 1604 395 m -1 Y s 1599 394 m 11 X s 1607 410 m 1 Y s 1601 411 m 11 X s 1607 387 m s 1601 387 m 11 X s
1609 426 m 9 Y s 1603 435 m 12 X s 1609 403 m -9 Y s 1603 394 m 12 X s 1614 413 m 2 Y s 1608 415 m 11 X s 1614 390 m -3 Y s 1608 387 m 11 X s 1614 406 m 1 Y s 1608 407 m 12 X s 1614 383 m -1 Y s 1608 382 m 12 X s 1619 413 m 1 Y s 1614 414 m 11 X s
1619 390 m -1 Y s 1614 389 m 11 X s 1620 423 m 5 Y s 1614 428 m 11 X s 1620 400 m -5 Y s 1614 395 m 11 X s 1621 421 m 2 Y s 1615 423 m 11 X s 1621 398 m -2 Y s 1615 396 m 11 X s 1624 412 m 1 Y s 1618 413 m 12 X s 1624 389 m -1 Y s 1618 388 m 12 X s
1633 398 m 2 Y s 1627 400 m 12 X s 1633 375 m -2 Y s 1627 373 m 12 X s 1633 412 m 1 Y s 1628 413 m 11 X s 1633 389 m s 1628 389 m 11 X s 1634 426 m 2 Y s 1628 428 m 11 X s 1634 403 m -2 Y s 1628 401 m 11 X s 1646 441 m s 1641 441 m 11 X s 1646 418
m s 1641 418 m 11 X s 1647 435 m 1 Y s 1641 436 m 11 X s 1647 412 m -1 Y s 1641 411 m 11 X s 1647 437 m 1 Y s 1642 438 m 11 X s 1647 414 m -1 Y s 1642 413 m 11 X s 1648 432 m 3 Y s 1642 435 m 12 X s 1648 410 m -3 Y s 1642 407 m 12 X s 1648 439 m 4
Y s 1642 443 m 12 X s 1648 416 m -3 Y s 1642 413 m 12 X s 1649 442 m 5 Y s 1643 447 m 11 X s 1649 419 m -5 Y s 1643 414 m 11 X s 1649 445 m 1 Y s 1643 446 m 12 X s 1649 423 m -1 Y s 1643 422 m 12 X s 1649 444 m 2 Y s 1644 446 m 11 X s 1649 421 m -2
Y s 1644 419 m 11 X s 1650 445 m 4 Y s 1644 449 m 12 X s 1650 422 m -5 Y s 1644 417 m 12 X s 1653 429 m s 1647 429 m 12 X s 1653 406 m s 1647 406 m 12 X s 1654 431 m s 1648 431 m 11 X s 1654 408 m s 1648 408 m 11 X s 1654 438 m 4 Y s 1649 442 m 11
X s 1654 415 m -5 Y s 1649 410 m 11 X s 1655 426 m 7 Y s 1649 433 m 11 X s 1655 404 m -7 Y s 1649 397 m 11 X s 1655 426 m 5 Y s 1649 431 m 12 X s 1655 403 m -4 Y s 1649 399 m 12 X s 1656 445 m 1 Y s 1650 446 m 12 X s 1656 422 m -2 Y s 1650 420 m 12
X s 1656 453 m 4 Y s 1651 457 m 11 X s 1656 430 m -4 Y s 1651 426 m 11 X s 1659 427 m 1 Y s 1654 428 m 11 X s 1659 404 m -1 Y s 1654 403 m 11 X s 1660 423 m 1 Y s 1654 424 m 11 X s 1660 400 m s 1654 400 m 11 X s 1660 415 m 3 Y s 1655 418 m 11 X s
1660 392 m -3 Y s 1655 389 m 11 X s 1661 425 m 5 Y s 1655 430 m 12 X s 1661 402 m -6 Y s 1655 396 m 12 X s 1661 426 m 1 Y s 1656 427 m 11 X s 1661 403 m -1 Y s 1656 402 m 11 X s 1662 432 m 3 Y s 1656 435 m 11 X s 1662 409 m -3 Y s 1656 406 m 11 X s
1662 440 m 6 Y s 1656 446 m 12 X s 1662 417 m -5 Y s 1656 412 m 12 X s 1662 422 m 8 Y s 1657 430 m 11 X s 1662 399 m -8 Y s 1657 391 m 11 X s 1663 415 m 5 Y s 1657 420 m 11 X s 1663 393 m -5 Y s 1657 388 m 11 X s 1663 424 m 6 Y s 1657 430 m 12 X s
1663 401 m -6 Y s 1657 395 m 12 X s 1664 417 m 1 Y s 1658 418 m 11 X s 1664 394 m -1 Y s 1658 393 m 11 X s 1664 423 m 6 Y s 1658 429 m 12 X s 1664 400 m -5 Y s 1658 395 m 12 X s 1664 432 m 4 Y s 1659 436 m 11 X s 1664 409 m -5 Y s 1659 404 m 11 X s
1665 429 m 4 Y s 1659 433 m 11 X s 1665 407 m -4 Y s 1659 403 m 11 X s 1665 417 m 3 Y s 1659 420 m 12 X s 1665 394 m -3 Y s 1659 391 m 12 X s 1666 421 m 1 Y s 1660 422 m 12 X s 1666 398 m -1 Y s 1660 397 m 12 X s 1667 422 m 4 Y s 1662 426 m 11 X s
1667 399 m -5 Y s 1662 394 m 11 X s 1668 423 m 4 Y s 1662 427 m 11 X s 1668 400 m -4 Y s 1662 396 m 11 X s 1668 425 m 3 Y s 1662 428 m 12 X s 1668 403 m -3 Y s 1662 400 m 12 X s 1669 422 m 4 Y s 1663 426 m 11 X s 1669 399 m -4 Y s 1663 395 m 11 X s
1669 421 m 1 Y s 1663 422 m 12 X s 1669 398 m -1 Y s 1663 397 m 12 X s 1669 423 m 2 Y s 1664 425 m 11 X s 1669 400 m -3 Y s 1664 397 m 11 X s 1670 421 m 4 Y s 1664 425 m 11 X s 1670 398 m -3 Y s 1664 395 m 11 X s 1670 414 m 8 Y s 1664 422 m 12 X s
1670 391 m -8 Y s 1664 383 m 12 X s 1670 426 m 7 Y s 1665 433 m 11 X s 1670 403 m -6 Y s 1665 397 m 11 X s 1671 428 m 4 Y s 1665 432 m 12 X s 1671 405 m -3 Y s 1665 402 m 12 X s 1671 422 m 3 Y s 1666 425 m 11 X s 1671 399 m -2 Y s 1666 397 m 11 X s
1672 425 m 2 Y s 1666 427 m 11 X s 1672 402 m -3 Y s 1666 399 m 11 X s 1672 422 m s 1667 422 m 11 X s 1672 400 m s 1667 400 m 11 X s 1673 416 m 7 Y s 1667 423 m 11 X s 1673 393 m -7 Y s 1667 386 m 11 X s 1673 414 m 7 Y s 1667 421 m 12 X s 1673 391
m -7 Y s 1667 384 m 12 X s 1674 426 m 6 Y s 1668 432 m 11 X s 1674 403 m -6 Y s 1668 397 m 11 X s 1675 436 m 1 Y s 1670 437 m 11 X s 1675 413 m -1 Y s 1670 412 m 11 X s 1676 441 m 6 Y s 1670 447 m 12 X s 1676 418 m -6 Y s 1670 412 m 12 X s 1676 446
m 10 Y s 1671 456 m 11 X s 1676 423 m -9 Y s 1671 414 m 11 X s 1678 462 m 5 Y s 1672 467 m 11 X s 1678 439 m -5 Y s 1672 434 m 11 X s 1678 447 m 2 Y s 1672 449 m 12 X s 1678 424 m -2 Y s 1672 422 m 12 X s 1679 436 m 5 Y s 1674 441 m 11 X s 1679 413
m -5 Y s 1674 408 m 11 X s 1680 424 m 4 Y s 1674 428 m 11 X s 1680 401 m -4 Y s 1674 397 m 11 X s 1680 427 m 2 Y s 1674 429 m 12 X s 1680 404 m -2 Y s 1674 402 m 12 X s 1681 445 m 1 Y s 1675 446 m 12 X s 1681 423 m -2 Y s 1675 421 m 12 X s 1681 442
m 6 Y s 1676 448 m 11 X s 1681 419 m -6 Y s 1676 413 m 11 X s 1682 422 m 2 Y s 1676 424 m 11 X s 1682 399 m -1 Y s 1676 398 m 11 X s 1682 425 m 4 Y s 1677 429 m 11 X s 1682 403 m -4 Y s 1677 399 m 11 X s 1683 421 m 2 Y s 1677 423 m 11 X s 1683 398
m -2 Y s 1677 396 m 11 X s 1683 432 m 1 Y s 1677 433 m 12 X s 1683 410 m -1 Y s 1677 409 m 12 X s 1684 430 m 6 Y s 1679 436 m 11 X s 1684 407 m -6 Y s 1679 401 m 11 X s 1685 429 m 10 Y s 1679 439 m 11 X s 1685 406 m -9 Y s 1679 397 m 11 X s 1685
442 m 10 Y s 1679 452 m 12 X s 1685 419 m -11 Y s 1679 408 m 12 X s 1685 430 m 2 Y s 1680 432 m 11 X s 1685 407 m -2 Y s 1680 405 m 11 X s 1686 433 m 5 Y s 1681 438 m 11 X s 1686 411 m -5 Y s 1681 406 m 11 X s 1687 443 m 2 Y s 1681 445 m 11 X s
1687 420 m -3 Y s 1681 417 m 11 X s 1687 444 m 3 Y s 1681 447 m 12 X s 1687 421 m -3 Y s 1681 418 m 12 X s 1687 427 m 5 Y s 1682 432 m 11 X s 1687 404 m -5 Y s 1682 399 m 11 X s 1688 427 m 5 Y s 1682 432 m 11 X s 1688 405 m -5 Y s 1682 400 m 11 X s
1689 439 m 6 Y s 1683 445 m 12 X s 1689 416 m -6 Y s 1683 410 m 12 X s 1689 455 m 10 Y s 1684 465 m 11 X s 1689 432 m -11 Y s 1684 421 m 11 X s 1690 444 m 6 Y s 1684 450 m 11 X s 1690 421 m -6 Y s 1684 415 m 11 X s 1690 432 m 1 Y s 1684 433 m 12 X
s 1690 409 m -1 Y s 1684 408 m 12 X s 1690 450 m 2 Y s 1685 452 m 11 X s 1690 427 m -2 Y s 1685 425 m 11 X s 1691 467 m 1 Y s 1685 468 m 12 X s 1691 444 m s 1685 444 m 12 X s 1691 477 m s 1686 477 m 11 X s 1691 454 m s 1686 454 m 11 X s 1692 463 m
3 Y s 1687 466 m 11 X s 1692 441 m -3 Y s 1687 438 m 11 X s 1696 504 m 1 Y s 1690 505 m 12 X s 1696 482 m -1 Y s 1690 481 m 12 X s 1700 661 m 3 Y s 1694 664 m 12 X s 1700 638 m -3 Y s 1694 635 m 12 X s 1700 695 m 1 Y s 1695 696 m 11 X s 1700 673 m
-1 Y s 1695 672 m 11 X s 1701 735 m 20 Y s 1696 755 m 11 X s 1701 712 m -19 Y s 1696 693 m 11 X s 1702 809 m 12 Y s 1696 821 m 11 X s 1702 787 m -12 Y s 1696 775 m 11 X s 1702 875 m 30 Y s 1696 905 m 12 X s 1702 852 m -31 Y s 1696 821 m 12 X s 1702
990 m 50 Y s 1697 1040 m 11 X s 1702 967 m -50 Y s 1697 917 m 11 X s 1703 1161 m 80 Y s 1697 1241 m 11 X s 1703 1138 m -81 Y s 1697 1057 m 11 X s 1703 1417 m 122 Y s 1697 1539 m 12 X s 1703 1394 m -122 Y s 1697 1272 m 12 X s 1704 1814 m 55 Y s 1698
1869 m 11 X s 1704 1791 m -231 Y s 1698 1560 m 11 X s 1707 1528 m 118 Y s 1701 1646 m 12 X s 1707 1505 m -118 Y s 1701 1387 m 12 X s 1707 1253 m 85 Y s 1702 1338 m 11 X s 1707 1231 m -85 Y s 1702 1146 m 11 X s 1708 1064 m 35 Y s 1702 1099 m 11 X s
1708 1042 m -35 Y s 1702 1007 m 11 X s 1708 955 m 37 Y s 1702 992 m 12 X s 1708 932 m -36 Y s 1702 896 m 12 X s 1708 854 m 18 Y s 1703 872 m 11 X s 1708 831 m -17 Y s 1703 814 m 11 X s 1709 781 m 24 Y s 1703 805 m 12 X s 1709 758 m -24 Y s 1703 734
m 12 X s 1710 720 m 10 Y s 1704 730 m 11 X s 1710 697 m -11 Y s 1704 686 m 11 X s 1711 666 m 12 Y s 1705 678 m 12 X s 1711 643 m -12 Y s 1705 631 m 12 X s 1713 652 m 1 Y s 1708 653 m 11 X s 1713 630 m -1 Y s 1708 629 m 11 X s 1715 779 m 1 Y s 1710
780 m 11 X s 1715 756 m -1 Y s 1710 755 m 11 X s 1716 847 m 7 Y s 1710 854 m 11 X s 1716 824 m -6 Y s 1710 818 m 11 X s 1716 947 m 42 Y s 1710 989 m 12 X s 1716 924 m -43 Y s 1710 881 m 12 X s 1717 1189 m 51 Y s 1711 1240 m 11 X s 1717 1166 m -51 Y
s 1711 1115 m 11 X s 1717 1509 m 94 Y s 1711 1603 m 12 X s 1717 1487 m -94 Y s 1711 1393 m 12 X s 1719 1851 m 18 Y s 1713 1869 m 12 X s 1719 1828 m -83 Y s 1713 1745 m 12 X s 1719 1523 m 66 Y s 1714 1589 m 11 X s 1719 1500 m -67 Y s 1714 1433 m 11
X s 1720 1207 m 67 Y s 1714 1274 m 11 X s 1720 1184 m -67 Y s 1714 1117 m 11 X s 1720 978 m 40 Y s 1714 1018 m 12 X s 1720 955 m -40 Y s 1714 915 m 12 X s 1720 832 m 17 Y s 1715 849 m 11 X s 1720 809 m -17 Y s 1715 792 m 11 X s 1721 747 m 4 Y s
1715 751 m 11 X s 1721 724 m -4 Y s 1715 720 m 11 X s 1721 691 m s 1715 691 m 12 X s 1721 668 m s 1715 668 m 12 X s 1722 643 m 7 Y s 1716 650 m 11 X s 1722 620 m -7 Y s 1716 613 m 11 X s 1725 481 m 3 Y s 1720 484 m 11 X s 1725 459 m -3 Y s 1720 456
m 11 X s 1732 466 m 2 Y s 1726 468 m 11 X s 1732 443 m -1 Y s 1726 442 m 11 X s 1732 463 m 3 Y s 1727 466 m 11 X s 1732 440 m -3 Y s 1727 437 m 11 X s 1733 460 m 5 Y s 1727 465 m 11 X s 1733 437 m -6 Y s 1727 431 m 11 X s 1736 427 m 1 Y s 1730 428
m 11 X s 1736 404 m -1 Y s 1730 403 m 11 X s 1738 434 m 1 Y s 1732 435 m 12 X s 1738 411 m -1 Y s 1732 410 m 12 X s 1747 417 m 4 Y s 1741 421 m 12 X s 1747 394 m -3 Y s 1741 391 m 12 X s 1748 404 m 1 Y s 1743 405 m 11 X s 1748 382 m -1 Y s 1743 381
m 11 X s 1749 416 m 2 Y s 1743 418 m 12 X s 1749 393 m -2 Y s 1743 391 m 12 X s 1754 424 m 1 Y s 1749 425 m 11 X s 1754 401 m -1 Y s 1749 400 m 11 X s 1755 414 m 8 Y s 1749 422 m 11 X s 1755 391 m -9 Y s 1749 382 m 11 X s 1755 412 m 2 Y s 1749 414
m 12 X s 1755 389 m -2 Y s 1749 387 m 12 X s 1756 394 m 1 Y s 1750 395 m 11 X s 1756 371 m -1 Y s 1750 370 m 11 X s 1756 414 m s 1750 414 m 12 X s 1756 391 m s 1750 391 m 12 X s 1758 396 m 5 Y s 1752 401 m 12 X s 1758 373 m -4 Y s 1752 369 m 12 X s
1758 394 m 16 Y s 1753 410 m 11 X s 1758 371 m -16 Y s 1753 355 m 11 X s 1759 396 m 4 Y s 1753 400 m 12 X s 1759 373 m -4 Y s 1753 369 m 12 X s 1759 412 m 6 Y s 1754 418 m 11 X s 1759 389 m -6 Y s 1754 383 m 11 X s 1760 400 m 2 Y s 1754 402 m 11 X
s 1760 377 m -1 Y s 1754 376 m 11 X s 1760 398 m 2 Y s 1754 400 m 12 X s 1760 375 m -1 Y s 1754 374 m 12 X s 1761 385 m 1 Y s 1755 386 m 11 X s 1761 363 m -1 Y s 1755 362 m 11 X s 1763 424 m 1 Y s 1757 425 m 11 X s 1763 401 m -1 Y s 1757 400 m 11 X
s 1763 418 m 1 Y s 1758 419 m 11 X s 1763 396 m -1 Y s 1758 395 m 11 X s 1764 413 m 1 Y s 1758 414 m 12 X s 1764 390 m -1 Y s 1758 389 m 12 X s 1765 407 m 3 Y s 1759 410 m 11 X s 1765 384 m -3 Y s 1759 381 m 11 X s 1765 418 m 3 Y s 1759 421 m 12 X
s 1765 396 m -3 Y s 1759 393 m 12 X s 1766 418 m 3 Y s 1760 421 m 11 X s 1766 395 m -3 Y s 1760 392 m 11 X s 1773 415 m 4 Y s 1767 419 m 11 X s 1773 392 m -4 Y s 1767 388 m 11 X s 1773 423 m 3 Y s 1767 426 m 12 X s 1773 400 m -3 Y s 1767 397 m 12 X
s 1773 403 m 9 Y s 1768 412 m 11 X s 1773 381 m -9 Y s 1768 372 m 11 X s 1774 411 m 4 Y s 1768 415 m 12 X s 1774 388 m -4 Y s 1768 384 m 12 X s 1775 407 m s 1769 407 m 12 X s 1775 384 m s 1769 384 m 12 X s 1775 394 m 2 Y s 1770 396 m 11 X s 1775
371 m -3 Y s 1770 368 m 11 X s 1778 411 m 1 Y s 1772 412 m 12 X s 1778 388 m -1 Y s 1772 387 m 12 X s 1778 406 m 6 Y s 1773 412 m 11 X s 1778 384 m -6 Y s 1773 378 m 11 X s 1779 421 m 1 Y s 1773 422 m 11 X s 1779 399 m -1 Y s 1773 398 m 11 X s 1781
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/mr {mp x y w2 0 360 arc} def /m24 {mr s} def /m20 {mr f} def
/mb {mp x y w2 add m w2 neg 0 d 0 w neg d w 0 d 0 w d cl} def
/mt {mp x y w2 add m w2 neg w neg d w 0 d cl} def
/m21 {mb f} def /m25 {mb s} def /m22 {mt f} def /m26{mt s} def
/m23 {mp x y w2 sub m w2 w d w neg 0 d cl f} def
/m27 {mp x y w2 add m w3 neg w2 neg d w3 w2 neg d w3 w2 d cl s} def
/m28 {mp x w2 sub y w2 sub w3 add m w3 0 d 0 w3 neg d w3 0 d 0 w3 d w3 0 d 0 w3 d w3 neg 0 d 0 w3 d w3 neg 0 d
0 w3 neg d w3 neg 0 d cl s } def
/m29 {mp gsave x w2 sub y w2 add w3 sub m currentpoint t
4 {side} repeat cl fill gr} def
/m30 {mp gsave x w2 sub y w2 add w3 sub m currentpoint t
4 {side} repeat cl s gr} def
/m31 {mp x y w2 sub m 0 w d x w2 sub y m w 0 d x w2 sub y w2 add m w w neg d x w2 sub y w2
sub m w w d s} def
/m2 {mp x y w2 sub m 0 w d x w2 sub y m w 0 d s} def
/m5 {mp x w2 sub y w2 sub m w w d x w2 sub y w2 add m w w neg d s} def
/reencdict 24 dict def /ReEncode {reencdict begin /nco&na exch def
/nfnam exch def /basefontname exch def /basefontdict basefontname findfont def
/newfont basefontdict maxlength dict def basefontdict {exch dup /FID ne
{dup /Encoding eq {exch dup length array copy newfont 3 1 roll put} {exch
newfont 3 1 roll put} ifelse} {pop pop} ifelse } forall newfont
/FontName nfnam put nco&na aload pop nco&na length 2 idiv {newfont
/Encoding get 3 1 roll put} repeat nfnam newfont definefont pop end } def
/accvec [ 176 /agrave 181 /Agrave 190 /acircumflex 192 /Acircumflex
201 /adieresis 204 /Adieresis 209 /ccedilla 210 /Ccedilla 211 /eacute
212 /Eacute 213 /egrave 214 /Egrave 215 /ecircumflex 216 /Ecircumflex
217 /edieresis 218 /Edieresis 219 /icircumflex 220 /Icircumflex
221 /idieresis 222 /Idieresis 223 /ntilde 224 /Ntilde 226 /ocircumflex
228 /Ocircumflex 230 /Odieresis 231 /ucircumflex 236 /Ucircumflex
237 /udieresis 238 /Udieresis 239 /aring 240 /odieresis 242 /Aring 243 /ydieresis
244 /Ydieresis 246 /aacute 247 /Aacute 252 /ugrave 253 /Ugrave
127 /atilde 128 /Atilde 129 /oacute 130 /Oacute 131 /iacute
132 /Iacute 133 /igrave 134 /Igrave 135 /otilde 136 /Otilde
137 /uacute 138 /Uacute] def
/Times-Roman /Times-Roman accvec ReEncode
/Times-Italic /Times-Italic accvec ReEncode
/Times-Bold /Times-Bold accvec ReEncode
/Times-BoldItalic /Times-BoldItalic accvec ReEncode
/Helvetica /Helvetica accvec ReEncode
/Helvetica-Oblique /Helvetica-Oblique accvec ReEncode
/Helvetica-Bold /Helvetica-Bold accvec ReEncode
/Helvetica-BoldOblique /Helvetica-BoldOblique accvec ReEncode
/Courier /Courier accvec ReEncode
/Courier-Oblique /Courier-Oblique accvec ReEncode
/Courier-Bold /Courier-Bold accvec ReEncode
/Courier-BoldOblique /Courier-BoldOblique accvec ReEncode
/oshow {gsave [] 0 sd true charpath stroke gr} def
/stwn { /fs exch def /fn exch def /text exch def fn findfont fs sf
text sw pop xs add /xs exch def} def
/stwb { /fs exch def /fn exch def /nbas exch def /textf exch deftextf length /tlen exch def nbas tlen gt {/nbas tlendef} iffn findfont fs sf textf dup length nbas sub nbas getinterval sw
pop neg xs add /xs exch def} def
/accspe [ 65 /plusminus 66 /bar 67 /existential 68 /universal
69 /exclam 70 /numbersign 71 /greater 72 /question 73 /integral
74 /colon 75 /semicolon 76 /less 77 /bracketleft 78 /bracketright
79 /greaterequal 80 /braceleft 81 /braceright 82 /radical
83 /spade 84 /heart 85 /diamond 86 /club 87 /lessequal
88 /multiply 89 /percent 90 /infinity 48 /circlemultiply 49 /circleplus
50 /emptyset 51 /lozenge 52 /bullet 53 /arrowright 54 /arrowup
55 /arrowleft 56 /arrowdown 57 /arrowboth 48 /degree 44 /comma 43 /plus 45 /angle 42 /angleleft 47 /divide 61 /notequal 40 /equivalence 41 /second 97 /approxequal 98 /congruent 99 /perpendicular 100 /partialdiff 101 /florin 102 /intersection
103 /union 104 /propersuperset 105 /reflexsuperset 106 /notsubset 107 /propersubset 108 /reflexsubset 109 /element 110 /notelement 111 /gradient 112 /logicaland 113 /logicalor 114 /arrowdblboth 115 /arrowdblleft 116 /arrowdblup 117 /arrowdblright
118 /arrowdbldown 119 /ampersand 120 /omega1 121 /similar 122 /aleph ] def
/Symbol /Special accspe ReEncode
%%EndProlog
%%BeginSetup
%%EndSetup
newpath gsave .25 .25 scale gsave 0 0 t black[ ] 0 sd 3 lw 1 1 1 c 2268 2199 0 0 bf black 1 1 1 c 1815 1761 339 319 bf black 1815 1761 339 319 bl 1 1 1 c 1815 1761 339 319 bf black 1815 1761 339 319 bl 9 lw 0.95 0.95 0.95 c black 348 1996 m 18
-9 d 18 -9 d 19 -9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 19 -8 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 19 -9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 19 -9 d 18 -8 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 19 -9 d 18 -9 d 18
-9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 19 -9 d 18 -9 d 18 -8 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 19 -9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d 18 -9 d s 1237 1558 m 18 -9 d 19 -9 d 18 -10 d 18 -10 d 18 -10 d 18 -12 d 18 -12 d 18 -15 d 19 -17 d 18 -20 d 18
-24 d 18 -29 d 18 -35 d 18 -41 d 19 -48 d 18 -55 d 18 -61 d 18 -67 d 18 -72 d 18 -75 d 18 -76 d 19 -74 d 18 -72 d 18 -67 d 18 -61 d 18 -54 d 18 -46 d 18 -38 d 19 -32 d 18 -24 d 18 -19 d 18 -14 d 18 -10 d 18 -7 d 18 -5 d 19 -4 d 18 -2 d 18 -1 d 18
-1 d 18 X 18 -1 d 146 X s 2127 319 m 18 X s 3 lw 339 319 m 1815 X s 339 372 m -53 Y s 392 345 m -26 Y s 446 345 m -26 Y s 499 345 m -26 Y s 553 372 m -53 Y s 606 345 m -26 Y s 659 345 m -26 Y s 713 345 m -26 Y s 766 372 m -53 Y s 819 345 m -26 Y s
873 345 m -26 Y s 926 345 m -26 Y s 980 372 m -53 Y s 1033 345 m -26 Y s 1086 345 m -26 Y s 1140 345 m -26 Y s 1193 372 m -53 Y s 1246 345 m -26 Y s 1300 345 m -26 Y s 1353 345 m -26 Y s 1407 372 m -53 Y s 1460 345 m -26 Y s 1513 345 m -26 Y s 1567
345 m -26 Y s 1620 372 m -53 Y s 1673 345 m -26 Y s 1727 345 m -26 Y s 1780 345 m -26 Y s 1834 372 m -53 Y s 1887 345 m -26 Y s 1940 345 m -26 Y s 1994 345 m -26 Y s 2047 372 m -53 Y s 2047 372 m -53 Y s 2100 345 m -26 Y s 2154 345 m -26 Y s
gsave 2268 2199 0 0 C 316 239 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (0) show NC gr
gsave 2268 2199 0 0 C 527 239 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (2) show NC gr
gsave 2268 2199 0 0 C 741 239 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (4) show NC gr
gsave 2268 2199 0 0 C 954 239 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (6) show NC gr
gsave 2268 2199 0 0 C 1168 239 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (8) show NC gr
gsave 2268 2199 0 0 C 1359 239 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (10) show NC gr
gsave 2268 2199 0 0 C 1573 239 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (12) show NC gr
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797 m -27 X s 393 865 m -54 X s 366 934 m -27 X s 366 1002 m -27 X s 366 1070 m -27 X s 393 1139 m -54 X s 366 1207 m -27 X s 366 1275 m -27 X s 366 1344 m -27 X s 393 1412 m -54 X s 366 1480 m -27 X s 366 1548 m -27 X s 366 1617 m -27 X s 393 1685
m -54 X s 366 1753 m -27 X s 366 1822 m -27 X s 366 1890 m -27 X s 393 1958 m -54 X s 393 1958 m -54 X s 366 2027 m -27 X s
gsave 2268 2199 0 0 C 285 282 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (0) show NC gr
gsave 2268 2199 0 0 C 145 556 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (2000) show NC gr
gsave 2268 2199 0 0 C 145 829 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (4000) show NC gr
gsave 2268 2199 0 0 C 145 1103 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (6000) show NC gr
gsave 2268 2199 0 0 C 145 1376 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (8000) show NC gr
gsave 2268 2199 0 0 C 100 1650 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (10000) show NC gr
gsave 2268 2199 0 0 C 100 1923 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (12000) show NC gr [ 4 8] 0 sd 6 lw 339 1370 m 1121 X s[ ] 0 sd 3 lw 0.95 0.95 0.95 c black 348 1685 m 889 X s 1237 1685 m 18 X 19 -1 d 18 X 18 -2 d 18 -1 d 18 -3 d 18
-5 d 18 -6 d 19 -10 d 18 -13 d 18 -19 d 18 -24 d 18 -32 d 18 -41 d 19 -49 d 18 -59 d 18 -69 d 18 -76 d 18 -84 d 18 -89 d 18 -92 d 19 -92 d 18 -89 d 18 -85 d 18 -78 d 18 -70 d 18 -61 d 18 -51 d 19 -42 d 18 -33 d 18 -26 d 18 -20 d 18 -14 d 18 -10 d
18 -7 d 19 -5 d 18 -3 d 18 -2 d 18 -1 d 18 -1 d 18 X 19 -1 d 127 X s 2127 319 m 18 X s[ 12 12] 0 sd 6 lw 339 1685 m 1281 X s 1620 1685 m -1366 Y s 1620 319 m 534 X s[ 4 8] 0 sd 977 319 m 1368 Y s
gsave 2268 2199 0 0 C 1695 333 t 0 r /Helvetica-Bold findfont 68.3734 sf 0 0 m (0) show NC gr
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gsave 2268 2199 0 0 C 1054 333 t 0 r /Helvetica-Bold findfont 68.3734 sf 0 0 m (t) show NC gr
gsave 2268 2199 0 0 C 989 362 t 0 r /Helvetica-Bold findfont 102.56 sf 0 0 m (E) show NC gr
gsave 2268 2199 0 0 C 439 1698 t 0 r /Helvetica-Bold findfont 68.3734 sf 0 0 m (0) show NC gr
gsave 2268 2199 0 0 C 370 1726 t 0 r /Helvetica-Bold findfont 102.56 sf 0 0 m (N) show NC gr [ ] 0 sd 1545 1480 m 43 X s 3 lw 1588 1499 m 32 -19 d -32 -18 d f 6 lw 1588 1499 m 32 -19 d -32 -18 d 37 Y cl s 3 lw 1545 1462 m -32 18 d 32 19 d f 6 lw
1545 1462 m -32 18 d 32 19 d -37 Y cl s
gsave 2268 2199 0 0 C 1501 1521 t 0 r /Helvetica-Bold findfont 102.56 sf 0 0 m (ENC) show NC gr 926 1403 m 250 Y s 3 lw 908 1653 m 18 32 d 18 -32 d f 6 lw 908 1653 m 18 32 d 18 -32 d -36 X cl s 3 lw 944 1403 m -18 -32 d -18 32 d f 6 lw 944 1403 m
-18 -32 d -18 32 d 36 X cl s
gsave 2268 2199 0 0 C 855 1467 t 0 r /Helvetica-Bold findfont 68.3734 sf 0 0 m (S) show NC gr
gsave 2268 2199 0 0 C 786 1496 t 0 r /Helvetica-Bold findfont 102.56 sf 0 0 m (N) show NC gr
gr gr
showpage
end
%%EOF

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%!PS-Adobe-2.0 EPSF-2.0
%%BoundingBox: 0 0 567 550
%%Title: /afs/psi.ch/project/mythen/mythen_datasheet/article/thr_scan_fluo.eps: c1
%%Creator: ROOT Version 5.20/00
%%CreationDate: Wed Dec 10 17:16:38 2008
%%EndComments
%%BeginProlog
80 dict begin
/s {stroke} def /l {lineto} def /m {moveto} def /t {translate} def
/sw {stringwidth} def /r {rotate} def /rl {roll} def /R {repeat} def
/d {rlineto} def /rm {rmoveto} def /gr {grestore} def /f {eofill} def
/c {setrgbcolor} def /black {0 setgray} def /sd {setdash} def
/cl {closepath} def /sf {scalefont setfont} def /lw {setlinewidth} def
/box {m dup 0 exch d exch 0 d 0 exch neg d cl} def
/NC{systemdict begin initclip end}def/C{NC box clip newpath}def
/bl {box s} def /bf {box f} def /Y { 0 exch d} def /X { 0 d} def
/mp {newpath /y exch def /x exch def} def
/side {[w .77 mul w .23 mul] .385 w mul sd w 0 l currentpoint t -144 r} def
/mr {mp x y w2 0 360 arc} def /m24 {mr s} def /m20 {mr f} def
/mb {mp x y w2 add m w2 neg 0 d 0 w neg d w 0 d 0 w d cl} def
/mt {mp x y w2 add m w2 neg w neg d w 0 d cl} def
/m21 {mb f} def /m25 {mb s} def /m22 {mt f} def /m26{mt s} def
/m23 {mp x y w2 sub m w2 w d w neg 0 d cl f} def
/m27 {mp x y w2 add m w3 neg w2 neg d w3 w2 neg d w3 w2 d cl s} def
/m28 {mp x w2 sub y w2 sub w3 add m w3 0 d 0 w3 neg d w3 0 d 0 w3 d w3 0 d 0 w3 d w3 neg 0 d 0 w3 d w3 neg 0 d
0 w3 neg d w3 neg 0 d cl s } def
/m29 {mp gsave x w2 sub y w2 add w3 sub m currentpoint t
4 {side} repeat cl fill gr} def
/m30 {mp gsave x w2 sub y w2 add w3 sub m currentpoint t
4 {side} repeat cl s gr} def
/m31 {mp x y w2 sub m 0 w d x w2 sub y m w 0 d x w2 sub y w2 add m w w neg d x w2 sub y w2
sub m w w d s} def
/m2 {mp x y w2 sub m 0 w d x w2 sub y m w 0 d s} def
/m5 {mp x w2 sub y w2 sub m w w d x w2 sub y w2 add m w w neg d s} def
/reEncode {exch findfont dup length dict begin {1 index /FID eq {pop pop} {def} ifelse } forall /Encoding exch def currentdict end dup /FontName get exch definefont pop } def [/Times-Bold /Times-Italic /Times-BoldItalic /Helvetica
/Helvetica-Oblique /Helvetica-Bold /Helvetica-BoldOblique /Courier /Courier-Oblique /Courier-Bold /Courier-BoldOblique /Times-Roman /AvantGarde-Book /AvantGarde-BookOblique /AvantGarde-Demi /AvantGarde-DemiOblique /Bookman-Demi
/Bookman-DemiItalic /Bookman-Light /Bookman-LightItalic /Helvetica-Narrow /Helvetica-Narrow-Bold /Helvetica-Narrow-BoldOblique /Helvetica-Narrow-Oblique /NewCenturySchlbk-Roman /NewCenturySchlbk-Bold
/NewCenturySchlbk-BoldItalic /NewCenturySchlbk-Italic /Palatino-Bold /Palatino-BoldItalic /Palatino-Italic /Palatino-Roman ] {ISOLatin1Encoding reEncode } forall
/oshow {gsave [] 0 sd true charpath stroke gr} def
/stwn { /fs exch def /fn exch def /text exch def fn findfont fs sf
text sw pop xs add /xs exch def} def
/stwb { /fs exch def /fn exch def /nbas exch def /textf exch deftextf length /tlen exch def nbas tlen gt {/nbas tlendef} iffn findfont fs sf textf dup length nbas sub nbas getinterval sw
pop neg xs add /xs exch def} def
%%EndProlog
%%BeginSetup
%%EndSetup
newpath gsave .25 .25 scale gsave 0 0 t black[ ] 0 sd 3 lw 1 1 1 c 2268 2199 0 0 bf black 1 1 1 c 1814 1761 345 330 bf black 1814 1761 345 330 bl 1 1 1 c 1814 1761 345 330 bf black 1814 1761 345 330 bl 9 lw 0.95 0.95 0.95 c black 354 1681 m 18
-4 d 18 -3 d 18 -3 d 18 -4 d 19 -3 d 18 -4 d 18 -3 d 18 -4 d 18 -3 d 18 -3 d 18 -4 d 19 -3 d 18 -4 d 18 -3 d 18 -4 d 18 -3 d 18 -3 d 18 -4 d 19 -3 d 18 -4 d 18 -3 d 18 -4 d 18 -3 d 18 -3 d 18 -4 d 19 -3 d 18 -4 d 18 -3 d 18 -4 d 18 -4 d 18 -4 d 19
-5 d 18 -8 d 18 -10 d 18 -14 d 18 -19 d 18 -24 d 18 -30 d 19 -33 d 18 -34 d 18 -32 d 18 -29 d 18 -24 d 18 -18 d 18 -13 d 19 -9 d 18 -6 d 18 -5 d 18 -3 d s 1243 1257 m 18 -3 d 18 -3 d 18 -3 d 19 -2 d 18 -3 d 18 -3 d 18 -4 d 18 -4 d 18 -7 d 18 -10 d
19 -18 d 18 -29 d 18 -43 d 18 -60 d 18 -79 d 18 -94 d 19 -104 d 18 -104 d 18 -97 d 18 -82 d 18 -63 d 18 -46 d 18 -29 d 19 -18 d 18 -10 d 18 -5 d 18 -2 d 18 -1 d 18 X 18 -1 d 345 X s 2132 330 m 18 X s 3 lw 345 330 m 1814 X s
gsave 2268 2199 0 0 C 1658 162 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (Energy \(keV\)) show NC gr 345 383 m -53 Y s 405 357 m -27 Y s 466 357 m -27 Y s 526 357 m -27 Y s 587 357 m -27 Y s 647 383 m -53 Y s 708 357 m -27 Y s 768 357 m -27
Y s 829 357 m -27 Y s 889 357 m -27 Y s 950 383 m -53 Y s 1010 357 m -27 Y s 1071 357 m -27 Y s 1131 357 m -27 Y s 1192 357 m -27 Y s 1252 383 m -53 Y s 1313 357 m -27 Y s 1373 357 m -27 Y s 1434 357 m -27 Y s 1494 357 m -27 Y s 1555 383 m -53 Y s
1615 357 m -27 Y s 1676 357 m -27 Y s 1736 357 m -27 Y s 1797 357 m -27 Y s 1857 383 m -53 Y s 1917 357 m -27 Y s 1978 357 m -27 Y s 2038 357 m -27 Y s 2099 357 m -27 Y s 2159 383 m -53 Y s
gsave 2268 2199 0 0 C 322 251 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (0) show NC gr
gsave 2268 2199 0 0 C 624 251 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (5) show NC gr
gsave 2268 2199 0 0 C 903 251 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (10) show NC gr
gsave 2268 2199 0 0 C 1205 251 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (15) show NC gr
gsave 2268 2199 0 0 C 1507 251 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (20) show NC gr
gsave 2268 2199 0 0 C 1809 251 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (25) show NC gr
gsave 2268 2199 0 0 C 2114 251 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (30) show NC gr 345 330 m 1761 Y s
gsave 2268 2199 0 0 C 105 1809 t 90 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (Counts) show NC gr 399 330 m -54 X s 372 374 m -27 X s 372 419 m -27 X s 372 463 m -27 X s 399 507 m -54 X s 372 551 m -27 X s 372 595 m -27 X s 372 639 m -27 X s
399 683 m -54 X s 372 727 m -27 X s 372 771 m -27 X s 372 815 m -27 X s 399 859 m -54 X s 372 903 m -27 X s 372 947 m -27 X s 372 991 m -27 X s 399 1035 m -54 X s 372 1079 m -27 X s 372 1123 m -27 X s 372 1167 m -27 X s 399 1211 m -54 X s 372 1255
m -27 X s 372 1299 m -27 X s 372 1343 m -27 X s 399 1387 m -54 X s 372 1431 m -27 X s 372 1475 m -27 X s 372 1519 m -27 X s 399 1563 m -54 X s 372 1607 m -27 X s 372 1651 m -27 X s 372 1695 m -27 X s 399 1739 m -54 X s 372 1783 m -27 X s 372 1827 m
-27 X s 372 1871 m -27 X s 399 1915 m -54 X s 372 1959 m -27 X s 372 2003 m -27 X s 372 2047 m -27 X s 399 2091 m -54 X s
gsave 2268 2199 0 0 C 291 293 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (0) show NC gr
gsave 2268 2199 0 0 C 151 470 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (2000) show NC gr
gsave 2268 2199 0 0 C 151 647 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (4000) show NC gr
gsave 2268 2199 0 0 C 151 823 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (6000) show NC gr
gsave 2268 2199 0 0 C 151 1000 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (8000) show NC gr
gsave 2268 2199 0 0 C 105 1174 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (10000) show NC gr
gsave 2268 2199 0 0 C 105 1350 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (12000) show NC gr
gsave 2268 2199 0 0 C 105 1527 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (14000) show NC gr
gsave 2268 2199 0 0 C 105 1704 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (16000) show NC gr
gsave 2268 2199 0 0 C 105 1880 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (18000) show NC gr
gsave 2268 2199 0 0 C 105 2054 t 0 r /Helvetica-Bold findfont 82.6178 sf 0 0 m (20000) show NC gr [ 12 12] 0 sd 6 lw 1555 330 m 441 Y s 1071 330 m 1083 Y s[ 4 8] 0 sd 1313 330 m 916 Y s
gsave 2268 2199 0 0 C 1624 752 t 0 r /Helvetica-Bold findfont 68.3734 sf 0 0 m (0) show NC gr
gsave 2268 2199 0 0 C 1558 781 t 0 r /Helvetica-Bold findfont 102.56 sf 0 0 m (E) show NC gr
gsave 2268 2199 0 0 C 1140 1396 t 0 r /Helvetica-Bold findfont 68.3734 sf 0 0 m (f) show NC gr
gsave 2268 2199 0 0 C 1074 1424 t 0 r /Helvetica-Bold findfont 102.56 sf 0 0 m (E) show NC gr
gsave 2268 2199 0 0 C 1336 1262 t 0 r /Helvetica-Bold findfont 68.3734 sf 0 0 m (t) show NC gr
gsave 2268 2199 0 0 C 1271 1291 t 0 r /Helvetica-Bold findfont 102.56 sf 0 0 m (E) show NC gr [ ] 0 sd 1071 595 m 242 X s 1281 613 m 32 -18 d -32 -19 d s 1102 576 m -31 19 d 31 18 d s 1313 595 m 242 X s 1523 613 m 32 -18 d -32 -19 d s 1344 576 m
-31 19 d 31 18 d s
gsave 2268 2199 0 0 C 1159 613 t 0 r /Symbol findfont 102.56 sf 0 0 m (S) show NC gr
gsave 2268 2199 0 0 C 1402 613 t 0 r /Symbol findfont 102.56 sf 0 0 m (S) show NC gr
gr gr
showpage
end
%%EOF

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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 3.2 Final//EN">
<!--Converted with LaTeX2HTML 2002-2-1 (1.71)
original version by: Nikos Drakos, CBLU, University of Leeds
* revised and updated by: Marcus Hennecke, Ross Moore, Herb Swan
* with significant contributions from:
Jens Lippmann, Marek Rouchal, Martin Wilck and others -->
<HTML>
<HEAD>
<TITLE>SLS Detector Software Documentation</TITLE>
<META NAME="description" CONTENT="SLS Detector Software Documentation">
<META NAME="keywords" CONTENT="SLS Detectors">
<META NAME="resource-type" CONTENT="document">
<META NAME="distribution" CONTENT="global">
<LINK REL="next" HREF="node1.html">
</HEAD>
<BODY >
<P>
<H1 ALIGN="CENTER">SLS Detector Software Documentation</H1>
<DIV>
</DIV>
<BR><HR>
<!--Table of Child-Links-->
<A NAME="CHILD_LINKS"></A>
<UL>
<LI><A HREF="slsDetectors-FAQ/index.html">SLS Detectors Frequently Asked Questions</A> <BR>
Documents with general remarks about the detectors and the software that all users should read.
<A HREF="../pdf/slsDetectors-FAQ.pdf">*pdf*</A> <BR>
<BR>
<LI><A HREF="slsDetectorInstall/index.html">Installation</A> <BR>
Documentation for the installation of the SLS Detectors software library
<A HREF="../pdf/slsDetectorInstall.pdf">*pdf*</A> <BR>
<BR>
<LI><A HREF="slsDetectorClientHowTo/index.html">Command Line Interface</A> <BR>
Reference documentation for the command line interface sls_detector_put, sls_detector_get, sls_detector_acquire, sls_detector_help
<A HREF="../pdf/slsDetectorClientHowTo.pdf">*pdf*</A> <BR>
<BR>
<LI><A HREF="slsDetectorGuiHowTo/index.html">Graphical Users Interface</A> <BR>
Reference documentation for the GUI
<A HREF="../pdf/slsDetectorGuiHowTo.pdf">*pdf*</A> <BR>
<BR>
<LI><A HREF="calibrationWizardsHowTo/index.html">Calibration Wizards</A>
<UL>
<LI> Energy calibration <A HREF="../pdf/energyCalibrationHowTo.pdf">*pdf*</A>
<LI> Angular calibration <A HREF="../pdf/angularCalibrationHowTo.pdf">*pdf*</A>
</UL>
<BR>
<LI><A HREF="slsDetectorUsersDocs/index.html">Application Program Interface</A> <BR>
Doxygen documentation for using the slsDetectorUsers class
<A HREF="../pdf/slsDetectorUsersDocs.pdf">*pdf*</A> <BR>
<BR>
</UL>
<BR><HR>
<ADDRESS>
Anna Bergamaschi
</ADDRESS>
</BODY>
</HTML>

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14850 3900 15195 3900 105 arcto 4 {pop} repeat
15300 3900 15300 3405 105 arcto 4 {pop} repeat
15300 3300 14955 3300 105 arcto 4 {pop} repeat
cp gs col0 s gr
% Polyline
n 15480 3300 m 15375 3300 15375 3795 105 arcto 4 {pop} repeat
15375 3900 15720 3900 105 arcto 4 {pop} repeat
15825 3900 15825 3405 105 arcto 4 {pop} repeat
15825 3300 15480 3300 105 arcto 4 {pop} repeat
cp gs col0 s gr
% Polyline
n 16005 3300 m 15900 3300 15900 3795 105 arcto 4 {pop} repeat
15900 3900 16245 3900 105 arcto 4 {pop} repeat
16350 3900 16350 3405 105 arcto 4 {pop} repeat
16350 3300 16005 3300 105 arcto 4 {pop} repeat
cp gs col0 s gr
% Polyline
n 16530 3300 m 16425 3300 16425 3795 105 arcto 4 {pop} repeat
16425 3900 16770 3900 105 arcto 4 {pop} repeat
16875 3900 16875 3405 105 arcto 4 {pop} repeat
16875 3300 16530 3300 105 arcto 4 {pop} repeat
cp gs col0 s gr
% Polyline
n 12030 1575 m 11925 1575 11925 2220 105 arcto 4 {pop} repeat
11925 2325 16845 2325 105 arcto 4 {pop} repeat
16950 2325 16950 1680 105 arcto 4 {pop} repeat
16950 1575 12030 1575 105 arcto 4 {pop} repeat
cp gs col0 s gr
% Polyline
n 14430 1650 m 14325 1650 14325 2145 105 arcto 4 {pop} repeat
14325 2250 14670 2250 105 arcto 4 {pop} repeat
14775 2250 14775 1755 105 arcto 4 {pop} repeat
14775 1650 14430 1650 105 arcto 4 {pop} repeat
cp gs col0 s gr
% Polyline
n 14955 1650 m 14850 1650 14850 2145 105 arcto 4 {pop} repeat
14850 2250 15195 2250 105 arcto 4 {pop} repeat
15300 2250 15300 1755 105 arcto 4 {pop} repeat
15300 1650 14955 1650 105 arcto 4 {pop} repeat
cp gs col0 s gr
% Polyline
n 15480 1650 m 15375 1650 15375 2145 105 arcto 4 {pop} repeat
15375 2250 15720 2250 105 arcto 4 {pop} repeat
15825 2250 15825 1755 105 arcto 4 {pop} repeat
15825 1650 15480 1650 105 arcto 4 {pop} repeat
cp gs col0 s gr
% Polyline
n 16005 1650 m 15900 1650 15900 2145 105 arcto 4 {pop} repeat
15900 2250 16245 2250 105 arcto 4 {pop} repeat
16350 2250 16350 1755 105 arcto 4 {pop} repeat
16350 1650 16005 1650 105 arcto 4 {pop} repeat
cp gs col0 s gr
% Polyline
n 16530 1650 m 16425 1650 16425 2145 105 arcto 4 {pop} repeat
16425 2250 16770 2250 105 arcto 4 {pop} repeat
16875 2250 16875 1755 105 arcto 4 {pop} repeat
16875 1650 16530 1650 105 arcto 4 {pop} repeat
cp gs col0 s gr
/Times-Roman ff 375.00 scf sf
6375 1275 m
gs 1 -1 sc (Controller 0) col0 sh gr
/Times-Roman ff 375.00 scf sf
6375 2100 m
gs 1 -1 sc (Controller 1) col0 sh gr
/Times-Roman ff 375.00 scf sf
6375 2925 m
gs 1 -1 sc (Controller 2) col0 sh gr
/Times-Roman ff 375.00 scf sf
6375 3750 m
gs 1 -1 sc (Controller 3) col0 sh gr
/Times-Roman ff 375.00 scf sf
12075 1275 m
gs 1 -1 sc (Controller 0) col0 sh gr
/Times-Roman ff 375.00 scf sf
12075 2100 m
gs 1 -1 sc (Controller 1) col0 sh gr
/Times-Roman ff 375.00 scf sf
12075 2925 m
gs 1 -1 sc (Controller 2) col0 sh gr
/Times-Roman ff 375.00 scf sf
12075 3750 m
gs 1 -1 sc (Controller 3) col0 sh gr
/Times-Roman ff 375.00 scf sf
6300 300 m
gs 1 -1 sc (Detector 1) col0 sh gr
/Times-Roman ff 375.00 scf sf
12000 300 m
gs 1 -1 sc (Detector 2) col0 sh gr
% here ends figure;
$F2psEnd
rs
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\documentclass{article}
\usepackage{amssymb}
\usepackage[dvips]{graphicx}
\usepackage{verbatim}
\usepackage{hyperref}
\begin{document}
\title{SLS Detectors software installation}
\author{Anna Bergamaschi}
\date{\today}
\maketitle
\tableofcontents
\clearpage
The SLS detectors software is intended to control the detectors developed by the SLS Detectors group.
It provides a command line interface (text client), a graphical user interface (GUI) as well as an API that can be embedded in your acquisitions system, some tools for detector calibration and the software to receive the data from detector with high data throughput (e.g. GOTTHARD, EIGER).
\section{The software package}
The complete software package is composed of several programs which can be installed (or locally compiled) depending on the needs:
\begin{itemize}
\item The \textbf{slsDetector shared and static libraries} which are necessary for all user interfaces. \\
The class slsDetectorUsers can be used as API from your acquisition software (see separate documentation).
\item The \textbf{command line interfaces (sls\_detector\_put, sls\_detector\_get, sls\_detector\_acquire, sls\_detector\_help)}, which are provided to communicate with the detectors using the command line and eventually to the data receiver
\item The \textbf{data receiver (slsReceiver)}, which can be run on a different machine, receives the data from the detector and interfaces to the control software via TCP/IP for defining e.g. the file name, output path and return status and progress of the acquisition
\item The \textbf{graphical user interface (slsDetectorGUI)} which provides a user friendly way of operating the detectors with online data preview
\item The \textbf{calibration wizards (energyCalibrationWizard, angularCalibrationWizard)} to analyze the data and produce the energy or angular calibration files
\end{itemize}
Please refere to the SLS Detectors FAQ for additional documentation.
\section{Requirements}
The software is written in C/C++.\\
It needs to be able to access the shared memeory of the control PC and communicate to the detectors over TCP/IP. Therefore the detector should receive a proper IP address (either DHCP or static) and no firewall should be present between th control PC and the detector.
For installing the slsDetector shared and static libraries and the slsDetectorClient software, any Linux installation with a working gcc should be fine.
The slsDetectorGUI is based on Qt4 with Qwt libraries.
The calibration wizards are based on the CERN Root data analysis framework.
To compile the software you will need the whole Qt4, Qwt and Root installation, including the header files.\\
To run the software, it is enough to have the Qt4, Qwt or Root libraries appended to the \verb=LD_LIBRARY_PATH=.
\subsection{Qt4 installation}
A Qt version equal or higher than 4.6 is required.
You can retrieve the Qt4 libraries using YUM or download the open source version from e.g. \url{ftp://ftp.qt.nokia.com/qt/source/qt-everywhere-opensource-src-4.8.1.tar.gz}
To install:
\begin{verbatim}
> gunzip qt-everywhere-opensource-src-4.6.2.tar.gz
> tar xvf qt-everywhere-opensource-src-4.6.2.tar
> ./configure
> make
> make install
\end{verbatim}
By default Qt4 will be installed int /usr/local/Trolltech/Qt-4.8.1/
Edit your .bashrc to define the enviroment variable \verb=QTDIR= and add the libraries and exacutables to your \verb=LD_LIBRARY_PATH= and \verb=PATH=:
\begin{verbatim}
export QTDIR=/usr/local/Trolltech/Qt-4.8.1
export PATH=$QTDIR/bin:$PATH
export LD_LIBRARY_PATH=$QTDIR/lib:$LD_LIBRARY_PATH
\end{verbatim}
If your system also have Qt3 installed, make sure that \verb=QTDIR=, \verb=PATH= and \verb=LD_LIBRARY_PATH= point to Qt4 before installing Qwt (and of course compiling and running the GUI).
\subsection{Qwt installation}
A Qwt version equal or higher than 5 is required.\\
Before installing it, make sure that your \verb=QTDIR=, \verb=LD_LIBRARY_PATH= and \verb=PATH= point to the correct Qt4 version.
You can retrieve the Qwt libraries using YUM or download the open source version via svn:
\begin{verbatim}
> svn co https://qwt.svn.sourceforge.net/svnroot/qwt/branches/qwt-6.0
\end{verbatim}
To install:
\begin{verbatim}
> cd qwt-6.0
> qmake
> make
> make install
\end{verbatim}
By default Qwt will be installed in /usr/local/qwt-6.0
Edit your .bashrc to define the enviroment variable \verb=QWTDIR= and add the libraries to the \verb=LD_LIBRARY_PATH=:
\begin{verbatim}
export QWTDIR=/usr/local/qwt-6.0-svn/
export LD_LIBRARY_PATH=$QWTDIR/lib:$LD_LIBRARY_PATH
\end{verbatim}
\subsection{Root installation}
The software has been developed and tested with root 5.20, but any version should work.
Download the sources via svn:
\begin{verbatim}
> svn co https://root.cern.ch/svn/root/trunk root
\end{verbatim}
To install:
\begin{verbatim}
> cd root
> ./configure --enable-qt
> make
> make install
\end{verbatim}
Edit your .bashrc to define the ROOTSYS enviroment variable and annd the libraries and executables to the \verb=LD_LIBRARY_PATH= and \verb=PATH=:
\begin{verbatim}
export ROOTSYS=/usr/local/root
export PATH=$ROOTSYS/bin:$PATH
export LD_LIBRARY_PATH=$ROOTSYS/lib:$LD_LIBRARY_PATH
\end{verbatim}
You can also download the binaries, assuming that your linuc and gcc versions match:
\begin{verbatim}
http://root.cern.ch/drupal/content/production-version-534
\end{verbatim}
\section{Compilation}
If you simply want to install the software in the working directory you can:
\begin{itemize}
\item[make] compile the library and command line interface
\item[make lib] compile only the library
\item[make slsDetectorClient] compile the command line interface (and the library, since it is required)
\item[make slsDetectorGUI] compile slsDetectorGUI - requires a working Qt4 and Qwt installation
\item[make calWiz] compile the calibration wizards - requires a working root installation
\item[make doc] compile documentation in pdf format
\item[make htmldoc] compile documentation in html format
\item[make install\_lib] installs the libraries, the text clients, the documentation and the includes for the API
\item[make install] installs all software, including the gui, the cal wizards and the includes for the API
\item[make confinstall] installs all software, including the gui, the cal wizards and the includes for the API, prompting for the install paths
\item[make clean] remove object files and executables
\item[make tar] makes a compressed tar of the software package
\item[make help] lists possible targets
\end{itemize}
The path where the files binaries, libraries, documentation and includes will be installed can either be defined interactively by sourcing the \verb=configure= script (not executing!) or during compilation using \verb=make confinstall= or defined on the command line deifning one (or all) the following variables (normally \verb=INSTALLROOT= is enough:
\begin{itemize}
\item[INSTALLROOT] Directory where you want to install the software. Defaults to \verb=PWD=
\item[BINDIR] Directory where you want to install the binaries. Defaults to bin/
\item[INCDIR] Directory where you want to pute the header files. Defaults to include
\item[LIBDIR] Directory where you want to install the libraries. Defaults to bin/
\item[DOCDIR] Directory where you want to copy the documentation. Defaults to doc/
\end{itemize}
To be able to run the executables, append the \verb=BINDIR= directory to your \verb=PATH= and \verb=LIBDIR= to the \verb=LD_LIBRARY_PATH=.
To run the GUI, you also need to add to your \verb=LD_LIBRARY_PATH= the Qt4 and Qwt libraries, without the need to install the whole Qt and Qwt developer package:
\begin{itemize}
\item libqwt.so.6
\item libQtGui.so.4
\item libQtCore.so.4
\item libQtSvg.so.4
\end{itemize}
To run the calibration wizards it is preferrable to have a complete Root installation (binaries), with \verb=ROOTSYS= defined and the libraries added to the \verb=LD_LIBRARY_PATH=.
\section{Detector upgrade}
Sometimes the upgarde of the communication software, can require an upgrade of the software and/or firmware running on the detector as well.\\
In these cases, the users are not expected to compile teh software themselves (which would require dedicated softwares) but only to download on the detector board the programming files and/or communication program provided by the SLS Detectors group.
\subsection{MYTHEN upgrade}
\subsubsection{Firmware upgrade}
To upgrade the firmware you need either a working version of the Altera Quartus software or of the Quartus programmer, which can easly be downloade from \\
\verb=https://www.altera.com/download/programming/quartus2/pq2-index.jsp= \\
Normally installation of the software and of the driver for the USB-Blaster (provided together with the MYTHEN detector) are simpler under Windows.\\
Under Windows, the first time that you connect the USB-Blasterto one of your USB ports, you will be asked to install new hardware. Set the path to search
for the driver to: \verb=C:\altera\80sp1\qprogrammer\drivers\usb-blasterp= (where \verb=C:\altera\80sp1\qprogrammer\= is assumed to be ther path where your Quartus version is installed).\\
\begin{enumerate}
\item After starting the Quartus programmer, click on Hardware Setup and in the "Currently selected hardware" window select USB-Blaster.
\item In the Mode combo box select "Active Serial Programming".
\item Plug the end of your USB-Blaster WITH THE ADAPTER PROVIDED in the connector ASMI on the MCS board taking care that pin1 corresponds to the one indexed and with the rectangualr pad.
\item Click on add file and from select the programming file provided when the upgrade has been reccomended.
\item Check "Program/Configure" and "Verify".
\item Push the start button and wait until the programming process is finished (progress bar top left).
\item In case the programmer gives you error messages, check the polarity of your cable (pin1 corresponds) and that you have selected the correct programming connector.
\end{enumerate}
\subsubsection{Software upgrade}
First telent to the board:
\begin{verbatim}
telnet mymcs.mydomain.com
username: root
password: pass
killall mythenDetectorServer
ls /mnt/flash/root
#if the directory does not exist mkdir /mnt/flash/root
\end{verbatim}
To upgrade the software on the detector board transfer the provided software by ftp to the MCS:
\begin{verbatim}
ftp mymcs.mydomain.com
username: root
password: pass
cd /mnt/flash/root
put mythenDetectorServer
quit
\end{verbatim}
After pressing reset on the board, the board should reboot.\\
If the program does not correctly start either check by using the http interface that it is started by the inittab (check that the file \verb=/mnt/etc/inittab= ends with the line \verb=myid2:3:once:/mnt/flash/root/mythenDetectorServer= ). \\
Otherwise make the program executable by telnetting to the MCS and executing:
\verb=chmod a+xrw /mnt/flash/root/mythenDetectorServer=\\
After pressing reset on the board, the board should reboot and the acqusition program correctly start.
\begin{comment}
\section{Detector system architecture}
For most users the detector will be composed by a single module. Therefore all configurations of the detector will refere to that single entity.
However, for some experiments it is necessary to concatenate the data from several detector controllers, and sometimes (e.g. MYTHEN) each controller can control many modules. This should be transparent to the user since most parameters will be identical for all controllers (e.g. exposure time, energy threshold etc.), except for the configurations specific to the controller (e.g. hardware configuration).\\
In principle it is possible to combine controllers of different type (e.g. MYTHEN, GOTTHARD, EIGER) but the user should then evaluate if it really makes sense to control such different systems in parallel.
In other cases, several SLS detectors will independently acquire data during the same experiment. In this case it will be necessary to be able to seperately control them.
The detectors can be controlled in parallel from several PCs (clients). However it is important the the configurations match on all of the them such that no conflict arise. Eventually a detector can be locked to a specific control PC, still different users interfaces (command line, GUI) can be used in parallel.
A sketch of a possible complex detector configuration is shown in figure~\ref{fig:multi_detector}
\subsection{Detector indexes}
For this reason and index is assigned to each detector. If a single detector is used, as in most cases, the index will be omitted and defaults to 0.\\
To control the other detectors the index cannot be omitted!\\
An index will also be assigned to each controller within a detector. However the user normally will not need to address single controllers, except for the most advanced settings which can be left to configuration files.\\
Finally each module within a controller has an internal index. However in general it is not required that the user is aware of the system architecture and, if needed (rarely), the modules can simply be addressed sequentially starting from controller 0.
\begin{figure}
\caption{Scketch of a possible complex system architecture composed of several detector, each consisting in many controllers eventually controlling several modules.}\label{fig:multidet}
\includegraphics[width=\textwidth]{multi_detector}
\end{figure}
\subsection{Data receiver}
For slower acquisitions, the detector will return the data to the control PC over TCP/IP (e.g. MYTHEN).
However, for faster frame rates (e.g. GOTTHARD, EIGER) the controllers will return the data to a data receiver i.e. a process specifically designed to receive the data from the controller over a GBit network and save them to disk. \\
The data receiver can run on any machine (e.g. a file server) accessible by both the control PC and the detector controller, as sketched in figure~\ref{fig:datareceiver}.
After starting the data receiver process and correctly configuring the client and the detector, this architecture should be completely transparent for the user, except that the output file path must be properly configured from the client for the data receiver machine (easiest is that the disk is mounted for both machines in the same location).\\
The cleint will take care of communicating with the data receiver and the detector. A feedback about the progress of the acquisition and a preview of the data being acquired can also be obtained by the client from the data receiver.
\begin{figure}
\caption{Scketch of the comminication between the control PC, the detector and the data receiver.}\label{fig:datareceiver}
\includegraphics[width=\textwidth]{data_receiver}
\end{figure}
\subsection{Examples}
For MYTHEN, if one needs to control 6 modules, the system can either be composed by and MCS6 with 6 modules (1 detector, 1 controller, 6 modules), or by 6 MCS1 (1 detector, 6 controller, 1 module each). After apppropriate configuration of the system, the interface to the user will be the same for both systems.
For GOTTHARD, one module corresponds to one controller. A detector will have the smae number of controllers and modules.
For EIGER, one module consists in two controllers. Fo a multi-module system, the number of controllers will increase accordingly, but should be left to a configuration file.
You will need to configure more than one detector, only in case you want to operate several detectors independently.
\section{The trimbits and calibration files} \label{sec:trimdir}
\subsection{MYTHEN}
In order to be able to properly operate your detector you need a directory where the trimbit files (needed to set the detector settings and eventually equalize the individual channel thresholds) which in the following will be named \textit{settingsdir} and a directory where the calibration files (needed to convert the threshold energy in DAC units) are stored which in the following will be named \textit{caldir}. \\
\textit{settingsdirdir} and \textit{caldir} can even be the same directory, and an example of it is given in the software package by the example directory \verb=trimdir=.
Since these directories are customized by producing trimbit files and calibration for each detector, make sure not to overwrite yours every time you upgrade the software.
\textit{settingsdir} should contain three subdirectories \verb=standard=, \verb=fast= and \verb=highgain= containing respectively the trimfiles \verb=standard.trim=, \verb=fast.trim= and \verb=highgain.trim= which contain the correct voltage settings for the detector although all the individual channel thresholds set to 0. The original files contained in the package should be used, infact in case of error the detector would not recognize the correct settings.\\
The default trimbit files for each file will be stored in the directory according to the settings with the name \verb=noise.snxxx= where \verb=xxx= is the module serial number.\\
\textit{caldir} should contain three subdirectories \verb=standard=, \verb=fast= and \verb=highgain= containing respectively the trimfiles \verb=standard.cal=, \verb=fast.cal= and \verb=highgain.cal= which contain an average calibration of the modules for the diffrent settings. However this can different from the correct one for each individual module even of several kev and therefore it is very important to perform an energy calibration on a module basis.\\
The default calibration files for each file will be stored in the directory according to the settings with the name \verb=calibration.snxxx= where \verb=xxx= is the module serial number.
The \textit{settingsdir} and \textit{caldir} should be properly configured for your detector either in a configuration file (for use with text clients, GUI or API) or dynamically (works only for the text clients).
\subsection{GOTTHARD}
A \textit{settingsdir} should be configured, as the directory \verb=settings= in this software package.\\
It must contain the subdirectories \verb=dynamicgain=, \verb=gain1=, \verb=gain2=, \verb=gain3=, \verb=highgain=, \verb=lowgain=, \verb=mediumgain=, and \verb=veryhighgain= in order to properly configure the GOTTHARD detector using the various gain settings.
\end{comment}
\end{document}

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\documentclass{article}
\usepackage{amssymb}
\usepackage[dvips]{graphicx}
\usepackage{verbatim}
\usepackage{html}
\begin{document}
\title{SLS Detectors\\ Frequently Asked Questions}
\author{Anna Bergamaschi}
\date{\today}
\maketitle
\tableofcontents
\clearpage
\section{SLS Detectors Software}
\subsection{Which programs can I use to control my detector?}
The complete software package is composed of several programs which can be installed (or locally compiled) depending on the needs:
\begin{itemize}
\item The \textbf{slsDetector shared and static libraries} which are necessary for all user interfaces. \\
The class slsDetectorUsers can be used as API from your acquisition software (see separate documentation).
\item The \textbf{command line interfaces (sls\_detector\_put, sls\_detector\_get, sls\_detector\_acquire, sls\_detector\_help)}, which are provided to communicate with the detectors using the command line and eventually to the data receiver
\item The \textbf{data receiver (slsReceiver)}, which can be run on a different machine, receives the data from the detector and interfaces to the control software via TCP/IP for defining e.g. the file name, output path and return status and progress of the acquisition
\item The \textbf{graphical user interface (slsDetectorGUI)} which provides a user friendly way of operating the detectors with online data preview
\item The \textbf{calibration wizards (energyCalibrationWizard, angularCalibrationWizard)} to analyze the data and produce the energy or angular calibration files
\end{itemize}
\subsection{How can I control many detectors in parallel or independently?}
For most users the detector will be composed by a single module. Therefore all configurations of the detector will refere to that single entity.
However, for some experiments it is necessary to concatenate the data from several detector controllers, and sometimes (e.g. MYTHEN) each controller can control many modules. This should be transparent to the user since most parameters will be identical for all controllers (e.g. exposure time, energy threshold etc.), except for the configurations specific to the controller (e.g. hardware configuration).\\
In principle it is possible to combine controllers of different type (e.g. MYTHEN, GOTTHARD, EIGER) but the user should then evaluate if it really makes sense to control such different systems in parallel.
In other cases, several SLS detectors will independently acquire data during the same experiment. In this case it will be necessary to be able to seperately control them.
The detectors can be controlled in parallel from several PCs (clients). However it is important the the configurations match on all of the them such that no conflict arise. Eventually a detector can be locked to a specific control PC, still different users interfaces (command line, GUI) can be used in parallel.
A sketch of a possible complex detector configuration is shown in figure~\ref{fig:multi_detector}
%\subsection{Detector indexes}
For this reason and index is assigned to each detector. If a single detector is used, as in most cases, the index will be omitted and defaults to 0.\\
To control the other detectors the index cannot be omitted!\\
An index will also be assigned to each controller within a detector. However the user normally will not need to address single controllers, except for the most advanced settings which can be left to configuration files.\\
Finally each module within a controller has an internal index. However in general it is not required that the user is aware of the system architecture and, if needed (rarely), the modules can simply be addressed sequentially starting from controller 0.
\begin{figure}
\caption{Scketch of a possible complex system architecture composed of several detector, each consisting in many controllers eventually controlling several modules.}\label{fig:multidet}
\includegraphics[width=\textwidth]{multi_detector}
\end{figure}
\subsubsection{Examples}
For MYTHEN, if one needs to control 6 modules, the system can either be composed by and MCS6 with 6 modules (1 detector, 1 controller, 6 modules), or by 6 MCS1 (1 detector, 6 controller, 1 module each). After apppropriate configuration of the system, the interface to the user will be the same for both systems.
For GOTTHARD, one module corresponds to one controller. A detector will have the smae number of controllers and modules.
For EIGER, one module consists in two controllers. Fo a multi-module system, the number of controllers will increase accordingly, but should be left to a configuration file.
You will need to configure more than one detector, only in case you want to operate several detectors independently.
\subsection{How can I configure the data receiver?}
For slower acquisitions, the detector will return the data to the control PC over TCP/IP (e.g. MYTHEN).
However, for faster frame rates (e.g. GOTTHARD, EIGER) the controllers will return the data to a data receiver i.e. a process specifically designed to receive the data from the controller over a GBit network and save them to disk. \\
The data receiver can run on any machine (e.g. a file server) accessible by both the control PC and the detector controller, as sketched in figure~\ref{fig:datareceiver}.
After starting the data receiver process and correctly configuring the client and the detector, this architecture should be completely transparent for the user, except that the output file path must be properly configured from the client for the data receiver machine (easiest is that the disk is mounted for both machines in the same location).\\
The cleint will take care of communicating with the data receiver and the detector. A feedback about the progress of the acquisition and a preview of the data being acquired can also be obtained by the client from the data receiver.
\begin{figure}
\caption{Scketch of the comminication between the control PC, the detector and the data receiver.}\label{fig:datareceiver}
\includegraphics[width=\textwidth]{data_receiver}
\end{figure}
\subsection{What are settings and calibration files for?} \label{sec:trimdir}
\subsubsection{MYTHEN}
In order to be able to properly operate your detector you need a directory where the trimbit files (needed to set the detector settings and eventually equalize the individual channel thresholds) which in the following will be named \textit{settingsdir} and a directory where the calibration files (needed to convert the threshold energy in DAC units) are stored which in the following will be named \textit{caldir}. \\
\textit{settingsdirdir} and \textit{caldir} can even be the same directory, and an example of it is given in the software package by the example directory \verb=trimdir=.
Since these directories are customized by producing trimbit files and calibration for each detector, make sure not to overwrite yours every time you upgrade the software.
\textit{settingsdir} should contain three subdirectories \verb=standard=, \verb=fast= and \verb=highgain= containing respectively the trimfiles \verb=standard.trim=, \verb=fast.trim= and \verb=highgain.trim= which contain the correct voltage settings for the detector although all the individual channel thresholds set to 0. The original files contained in the package should be used, infact in case of error the detector would not recognize the correct settings.\\
The default trimbit files for each file will be stored in the directory according to the settings with the name \verb=noise.snxxx= where \verb=xxx= is the module serial number.\\
\textit{caldir} should contain three subdirectories \verb=standard=, \verb=fast= and \verb=highgain= containing respectively the trimfiles \verb=standard.cal=, \verb=fast.cal= and \verb=highgain.cal= which contain an average calibration of the modules for the diffrent settings. However this can different from the correct one for each individual module even of several kev and therefore it is very important to perform an energy calibration on a module basis.\\
The default calibration files for each file will be stored in the directory according to the settings with the name \verb=calibration.snxxx= where \verb=xxx= is the module serial number.
The \textit{settingsdir} and \textit{caldir} should be properly configured for your detector either in a configuration file (for use with text clients, GUI or API) or dynamically (works only for the text clients).
\subsubsection{GOTTHARD}
A \textit{settingsdir} should be configured, as the directory \verb=settings= in this software package.\\
It must contain the subdirectories \verb=dynamicgain=, \verb=gain1=, \verb=gain2=, \verb=gain3=, \verb=highgain=, \verb=lowgain=, \verb=mediumgain=, and \verb=veryhighgain= in order to properly configure the GOTTHARD detector using the various gain settings.
\subsection{How should a configuration file look like?}
\subsection{What is the meaning of the file name?}
The final file name will be: \\
\textit{outdir/prefix}\verb=[_d=$d$\verb=][_S=\textit{v0}\verb=][_s=\textit{v1}\verb=][_p=\textit{p}\verb=][_f=\textit{f}\verb=]_=\textit{i}\verb=.=\textit{ext}\\
where: \\
\textit{outdir} is the output directory path;\\
\textit{prefix} is the chosen prefix for the file name;\\
\textit{d} is the detector index, in case of data receiver and more than one detector;\\
\textit{v0} is the scan0 variable with the desired precision, if scan0 is enabled;\\
\textit{v1} is the scan1 variable with the desired precision, if scan1 is enabled;\\
\textit{p} is the position index, if different positions are configured;\\
\textit{f} is the frame index of the first frame stored in the file, if many frames and cycles are configured;\\
\textit{i} is the file index;\\
\textit{ext} is the file extension e.g. \textit{.raw} for MYTHEN raw data, \textit{.dat} for MYTHEN processed data.
\subsection{Which is the sequence of the acquisition flow?}
case startScript:
case stopScript:
nrun=i par=p
case scriptBefore:
case scriptAfter:
nrun=i fn=fn par=p sv0=v0 sv1=v1 p0=p0 p1=p1
case headerBefore:
case headerAfter: nrun=i fn=fn par=p
case scan:
nrun=i fn=fn var=v par=p
\begin{displaymath}
%%%%%%%%%%%%%%%%%%%%%8
\textrm{Measurement loop} \\
\left\{ \qquad
\begin{array}{l} \\
% \textrm{Measurement loop} \\
\\
%%%%%%%%%%%%%%%%%%%%%7
% \left[
\qquad
\begin{array}{l} \\
\blacksquare \, \textrm{Start script} \\
\\
%%%%%%%%%%%%%%%%%%%%%6
\textrm{Scan 0 loop}
\left\{
\qquad
\begin{array}{l} \\
% \textrm{Scan 0 level} \\
\\
%%%%%%%%%%%%%%%%%%%%%5
\textrm{Scan 1 loop} \left\{
\qquad
\begin{array}{l} \\
% \textrm{Scan 1 level} \\
\\
%%%%%%%%%%%%%%%%%%%%%4
% \left[
\qquad
\begin{array}{l} \\
\blacksquare \, \textrm{Script before} \\
\\
%%%%%%%%%%%%%%%%%%%%%3
\left\{
\qquad
\begin{array}{l} \\
\textrm{Position loop} \\
\\
%%%%%%%%%%%%%%%%%%%%%2
% \left[
\qquad
\begin{array}{l} \\
\blacksquare \, \textrm{Header before} \\
\\
%%%%%%%%%%%%%%%%%%%%%1
\left\{
\qquad
\begin{array}{l} \\
\textrm{Cycles loop} \\
\\
%%%%%%%%%%%%%%%%%%%%%0
\left\{
\qquad
\begin{array}{l}
\\
\textrm{Frames loop} \\
\\
\end{array}
\right. \\
\\
%%%%%%%%%%%%%%%%%%%%%%%%%%0
\\
\end{array}
\right. \\
\\
%%%%%%%%%%%%%%%%%%%%%%%%%%1
\blacksquare \, \textrm{Header after}\\
\\
\end{array}
% \right. \\
%%%%%%%%%%%%%%%%%%%%%%%%%%2
\\
\end{array}
\right. \\
\\
%%%%%%%%%%%%%%%%%%%%%%%%%%3
\blacksquare \, \textrm{Script after} \\
\\
\end{array}
% \right. \\
\\
%%%%%%%%%%%%%%%%%%%%%%%%%%4
\\
\end{array}
\right. \\
%%%%%%%%%%%%%%%%%%%%%%%%5
\\
\end{array}
\right. \\
\\
%%%%%%%%%%%%%%%%%%%%%%%%6
\blacksquare \, \textrm{Stop script} \\
\\
\end{array}
% \right. \\
\\
%%%%%%%%%%%%%%%%%%%%%%%%7
\\
\end{array}
\right.
%%%%%%%%%%%%%%%%%%%%%%%%8
\end{displaymath}
\subsection{How can I synchronize my detector wit the experiment?}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/normal_acquisition.eps}
\end{center}
\caption{Auto timing}\label{fig:autotiming}
\end{figure}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/gated_acquisition.eps}
\end{center}
\caption{Gating}\label{fig:gating}
\end{figure}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/single_trigger_acquisition.eps}
\end{center}
\caption{Single trigger}\label{fig:singtrig}
\end{figure}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/continuos_trigger_acquisition.eps}
\end{center}
\caption{Continous trigger}\label{fig:conttrig}
\end{figure}
\subsubsection{How do I synchronize several controllers?}
\subsubsection{How do I move the detector and read the encoder for angular conversion or read my intensity monitor for intensity normalization?}
\section{General questions about detectors}
\subsection{In which X-ray energy range can I use the detector?}
General remarks about sensor efficiency and electronic noise
\subsection{What is the electronic noise?}\label{sec:noise}
\subsection{What limits the maximum frame rate?}
\section{Single photon counting detectors}
\subsection{Which detector settings should I choose?}
The choice of the operation settings is very important in order to obtain good quality data.
Normally the user can follow these rules:
\begin{enumerate}
\item If the X-ray energy is lower than 8~keV the \textit{High gain} setting should be used. Since it is a slow mode of operation it is necessary to take care that the maximum count rate is lower than 100~kcounts/s for all channels (use filters to reduce the beam intensisty).
\item For energies higher than 8~keV, the \textit{Standard} setting is normally fine if the count rate can be kept lower than 300~kcounts/s for all channels (use filters to reduce the beam intensisty).
\item In case a larger count rate is required in order to keep the acquisition time shorter, the \textit{Fast} setting must be selected. However the maximum count rate should never exceed 1~Mcounts/s for all channels.
\end{enumerate}
\subsubsection{MYTHEN}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/settings}
\end{center}
\caption{Plot indicating the reccomended choice of detector settings as a function of the X-ray energy and maximum count rate per channel..}\label{fig:settings}
\end{figure}
\subsection{How do I chose the comparator threshold?}
\begin{figure}[b!]
\begin{center}
\includegraphics[width=\textwidth]{images/thr_scan_expl}
\end{center}
\caption{Number of counts as a function of the threshold detected in an ideal case.}\label{fig:thrscan}
\end{figure}
\begin{figure}[t!]
\begin{center}
\includegraphics[width=\textwidth]{images/thr_scan_fluo}
\end{center}
\caption{Number of counts as a function of the threshold detected in presence of fluorescent radiation}\label{fig:thrscanfluo}
\end{figure}
Once selected the settings, the threshold should be selected.
Figure~\ref{fig:thrscan} shows the number of counts as a function of the threshold value in the ideal case of monoenergetix X-rays of energy $E_0$=10~keV.
For thresholds larger than the X-ray energy the detector should always count 0 and for lower thresholds it should always count all the photons. However the curve is smoothed around $E_0$ because of the electronic noise (ENC) and is not perfectly flat for lower energies because the photons absorbed in the region between two strips distribute their energy between them and it is not flully collected by a single channel (charge sharing).\\
In order to count once al X-rays the threshold should be set at half of the X-ray energy $E_t=E_0/2$: if the threshold would be higher some photons would not be counted, leading to a loss of efficiency, while if it would be lower some photons would be counted twice leading to a loss of spatial resolution.
Since the detector threshold can't be precisely set at the same value for all channels but there will always be some spread of the order of 200~eV (threshold dispersion) there will always be some fluctuations on the number of counts between channels, which however should be corrected by the flat field correction.
The choice of the threshold should also depend from considerations regarding the emission of fluorescent radiation from the sample.\\
Figure~\ref{fig:thrscanfluo} shows how the curve of the counts would look like for monochromatic X-rays of energy $E_0$ in presence of radiation of energy $E_f$ emitted by the sample. The curve would show a second step at $E_f$.
Since the fluorecence emission is not present in the flat field data, the difference of counts between the channels due to the fluorescent radiation cannot be corrected and the threshold $E_t$ should be set at an energy larger than $E_f$. This also helps to cut down the background.\\
The difference of counts between the channels will be particularly large if the threshold is set in some ``steep'' part of the curve i.e. close to $E_f$ or to $E_0$ (but in this case it would be corrected by the flat field, at cost of loss of efficiency).
Because of the presence of the electronic noise, $E_t$ should be at least 3~keV larger than $E_f$.
Here is a short list of rules to select the appropriate working threshold in order of importance (and eventually modify the X-ray energy):
\begin{enumerate}
\item List the fluorescent emission lines $E_f$ that you expect from your sample.
\item If there is no fluorescent emission ($E_f<E_0$) $E_t=E_0/2$
\item If there is fluorescent emission
\begin{enumerate}
\item $E_t>E_f+3$~keV
\item $E_t<E_0-3$~keV
\end{enumerate}
If the range where both requirements are satisfied is large, try to increase the distance of $E_t$ from $E_f$ up to 5~keV and then set $E_t$ as close as possible to the ideal value $E_t=E_0/2$
\item If it is not possible to satisfy the previous minimal requirements:
\begin{enumerate}
\item If you need high quality data and you can sacrifice detector efficiency (a lot!) $E_t>E_f+3$~keV
\item If you need fast measurments and you can sacrifice detector uniformity (difficult to say how much) and increase the background $E_t<E_f-3$~keV. Remember that $E_t$ is klimited by the electronic noise $E_t>4$~keV (3~keV for \textit{High gain} settings).
\item Consider to change $E_0$ to values lower than $E_f$ or at least 6-8~keV larger than $E_f$
\end{enumerate}
\end{enumerate}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/sample_with_fluorescence}
\end{center}
\caption{Example of data from a sample emitting fluorescent light and detector threshold set at a value close to the emission line. The background data cannot be properly flat field corrected.}\label{fig:samplefluo}
\end{figure}
\subsection{Why isn't my flat-field flat?}
The main reasons of a non flat flat-field can be:
\begin{itemize}
\item The scattering from the glass rod is not uniform over the angular range. In this case you should take the flat field dynamically i.e. scanning the detector in front of the cylinder with the small window, as we do at the SLS. In this case when you shift the detector, the shape of the illumination remains in the same angular position (and shifts in channel number). Of course it depends a lot on the energy and on the geometry of the flat field acquisition.
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/bad_ff_col}
\end{center}
\caption{Example of a very bad flat field data set with highlights of some of the reasons which can cause the non-flat behavior.}\label{fig:badff}
\end{figure}
\item The entrance window for the X-rays is deformed (we also have this problem at the SLS). In this case when you move the detector the "mountain" moves with it in angle (And remains still in channel number). However this should correct without problems with the flat field correction, even in case of fluorescent emission. Should appear at all energies.
\begin{comment}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/ff_window}
\end{center}
\caption{Variations in the flat field due to a non unifor entrance window of the detector housing.}\label{fig:ffwin}
\end{figure}
\end{comment}
\item Differences of efficiency between the modules i.e. mainly bad energy calibration. You normally see really steps at the transition between modules. Sometimes you have some groups of strips withing a module that are not properly trimmed and look as smallish peaks or valleys in the flat field. When you move the detector, these steps or peaks move in angle and remain still in channel number.
These differences can slightly change as a function of the energy (probably more evident at lower energies) but should normally always be there for the same settings.
These differences get much worse in presence of fluorescent emission, but normally correct properly with flat field correction.
\end{itemize}
\begin{comment}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/ff_calibration}
\end{center}
\caption{Variations in the flat field due to a non precise energy calibration or trimming of the detector modules.}\label{fig:ffcal}
\end{figure}
\end{comment}
\subsubsection{Dynamic acquisition of the flat field}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/FFSetup}
\end{center}
\caption{Sketch of the experimental setup for a dynamic acquisition of the flat field.}\label{fig:ffsetup}
\end{figure}
\subsection{What happens when I trim the detector?}
General remarks about trimming.
\subsubsection{MYTHEN}
%\subsubsubsection{Trimming with noise} \label{sec:noisetrim}
\textbf{Trimming with noise} \label{sec:noisetrim}\\
The first step in the trimming procedure is to trim with noise (this is often sufficient). This has to be done for all the settings which are foreseen to be used (highgain, standard and fast).\\
The procedure for the noise trimming is as follows:
\begin{enumerate}
\item In the \textit{Initialization tab} click on the settings for which you want to trim (e.g. standard)
\item In the \textit{Initialization tab} click on the \textit{advanced} radio button to make the trimming accessible.
\item In the \textit{Acquisition tab} set the acquisition time to 100~ms, the repetion to 1 and the delay between frames to 0.
\item For noise trimming usually the default parameters $Vthreshold=7$, $Counts=500$, $Resolution=4$ work.\\
However, to verify the threshold setting it is best to make a threshold scan. To do this go to the \textit{Data} tab, in the Data display section select the 2D color and type advanced option. In the \textit{Acquisition} tab select your data directory. Set the number of positions to 0. Select Scan, Type threshold. Typical values for the range are 500 to 900 with a step size of 10. Then click on the start button to perform the threshold scan. After the threhold scan has finished an image similar to the one in~\ref{fig:thresholdscanuntrimmed} should be shown. Depending on the system the number of modules may vary. If the plot is similar to the one in~\ref{fig:thresholdscantrimmed} the noise trim files did already exist and have been loaded when selecting the settings. In this case you don't need to trim with noise again.\\
Set the parameter Vthreshold in the \textit{Trimming} box (\textit{Initialization tab}) 10-30 DAC units below the onset of the noise for the module with the lowest threshold offset. Since the modules have differences in the offset and gain the onset of the noise varies. \\
You can usually leave the remaining parameters unchanged (Counts/pixel=500; Resolution=4).
\item Select the directory where the noise trim files should be written and the filename, to wich will be attached the extension given by the module serial number (.snxxx). If you want the trimfiles to be loaded authomatically when the global settings are selected, select the default directory specified in the config file (or in the ``trimbits/beamline'' directory for the older software versions).
Click on \textit{Trim} to start the noise trimming process. After the trimming has finished look at the plot and the distribution of the trim bits. The distribution should be around 32$\pm$5 and should look gaussian. An example distribution is shown in figure~\ref{fig:trimdistribution} and an example plot in~\ref{fig:trimplot}. If the distribution is too much off center change the counts/pixel, if it is too narrow reduce the resolution (set it to 3), if it is too wide increase it (set it to 5). Make sure not too many channels have a trim value of 0 or 63.
\item Execute the treshold scan again to verify the trimming was done properly. A plot similar tho the one in figure~\ref{fig:thresholdscantrimmed} should appear.
\end{enumerate}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/noise_thresholdscanuntrimmed}
\end{center}
\caption{The untrimmed threshold scan.}\label{fig:thresholdscanuntrimmed}
\end{figure}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/trimbitdistribution}
\end{center}
\caption{The distribution of the trimbits.}\label{fig:trimdistribution}
\end{figure}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/trimbitplot}
\end{center}
\caption{The trimbits for all the channels.}\label{fig:trimplot}
\end{figure}
\begin{figure}
\begin{center}
\includegraphics[width=\textwidth]{images/noise_thresholdscantrimmed}
\end{center}
\caption{The trimmed threshold scan.}\label{fig:thresholdscantrimmed}
\end{figure}
\textbf{
%\subsubsubsection{
Improve the trimming using X-rays}\label{sec:improvetrimming}\\
The improvement of the trimming acquired with noise is not essential: at 12~keV an untrimmed module has a threshold dispersion which is about 1.4~keV and is already reduced to 200~eV at 12~keV by the noise trimming. At lower energies the noise trimming will be more effective, while the threshold dispesion will be still larger at higher energies. The trimming improvement reduces the threshold dispersion to 140~eV at 12~keV and is expected to be almost constant at all energies. For this reason it is suggested to perform the trimming improvement only when a small threshold dispersion is really important (e.g. to avoid flat field corrections or in presence of fluorescent lines close to the threshold value) and it will probably be not worthy at lower energies (i.e. threshold lower than 6~keV and X-ray energy lower than 12~keV).
The procedure for the trimming improvement is as follows:
\begin{enumerate}
\item Select the settings of the detector and load the noise trimming file
\item Set the threshold at half of the X-ray energy (better if the detector has already been calibrated in energy like explained in~\ref{sec:encal})
\item Illuminate the detector with a flat field. This is very important to obtain a good trimming.
\item Select the \textit{acquisition time} in the \textit{acquisition tab} so that there are at least 1000 counts/strip per frame (the more counts, the better trimming). Set the repetions to 1 and the delay between frames to 0.
\item Go to expert mode by clicking on \textit{advanced} in the \textit{initialization tab}, \textit{settings} box
\item In the trimming box select the directory where the noise trim files should be written and the filename, to wich will be attached the extension given by the module serial number (.snxxx).
\item Select the \textit{improve} method
\textit Start the trimming
\end{enumerate}
If the trimming is correctly performed and the illumination is flat enough, the same trimming can be used every time you will measure at this same energy.
The authomatic loading of energy-specific trim files is not yet implemented.
\subsection{In what consists the energy calibration of the detector?}\label{sec:encal}
General remarks about DAC to energy conversion
\subsubsection{MYTHEN}
Since the conversion between the threshold DAC units and energy depends on the gain and offset of the channels the energy calibration has to be done for all settings (high gain, standard and fast). For each setting follow this procedure:
\begin{itemize}
\item Select the setting in the \textit{Initialization} tab.
\item Enter in expert mode by clicking the \textit{Advanced} radiobutton in the \textit{Global settings} box in the \textit{Initialization} tab.
\item If the trimfiles are in the correct location and with the correct name, they should be loaded by default every time you select the corresponding settings in the \textit{global settings} box in the \textit{initialization} tab~\footnote{The default name of the calibrated trimfiles is \textsf{trimbits/beamline/}\textit{settings}\textsf{/noise.snxxx} where \textit{settings} is the chosen settings. You can change it in \textsf{src/qDetector.h} and then recompile the acquisition program as described in~\ref{sec:installation}.}.
If the trim files do not yet exist generate them as explained in section~\ref{sec:noisetrim}.
\item Execute a threshold scan of the detector with at least three different energies. The more monochromatic are the X-rays, the better the calibration will be (i.e. scattered X-rays are better than the fluorescent emission). \\
The scan should range from where all modules count 0 (estimate 850-20$\cdot$energy(keV) DAcu) and where all modules start having a lot of noise (usually 800 DACu) with a step of 1 or 2 DACu. The acquisition time should be chosen so that there are at least 1000 counts per strip on the plateau.
\item Open the file \textsf{root/CalAllModules.C} for editing. Change the value of the following global variables according to your needs:
\begin{itemize}
\item \textit{nmod} is the number of modules of your system.
\item \textit{nscan} is the number of different threshold scans you acquired.
\item \textit{en} is the array with the energies at which you acquired the scans, in keV.
\item \textit{een} is the array with the errors on the energies at which you acquired the scans, in keV. It is usually small, but can be some hundreds eV in case of dirty fluorescent samples.
\item \textit{fn} is the array containing the location and root file name of your data.
\item \textit{run} is the array containing the run index of your data.
\item \textit{startscan} is the array containing the threshold value at which you started the scans.
\item \textit{stopscan} is the array containing the threshold value at which you finished the scans.
\item \textit{stepscan} is the array containing the threshold step of the scans.
\item \textit{ave} is the array containing the average number of counts per strip on the plateau (it must not be too precise).
\item \textit{sn} is the array containing the list of the serial number of the modules to be calibrated. It is important that the list is in the right order, so that the optput calibration files have the extension .snxxx corresponding to the right module.
\item \textit{of} is the location and root file name of the calibration file. The directory should already exist and the extension .snxxx will be attached to the output file.
\end{itemize}
\item Launch \textsf{root}, which you should have already installed on your linux PC
\item Execute the following commands in order to load the macros needed for the calibration:
\begin{verbatim}
root$ .L root/NewMythenMacros.C++
root$ .L root/CalAllModules.C++
\end{verbatim}
You should get a lot of warnings, but no errors.
\item Execute the following command in order to run the calibration:
\begin{verbatim}
root$ EnCalModules()
root$
\end{verbatim}
Reading and analyzing the data takes some time, but, after a while, a canvas should open where the plots of the median of the counts of every module as a function of the threshold should be shown for each energy, fitted with a modified \textit{erf} function in order to find the inflextion point. The last plot of the canvas should represent the inflexion points as a function of the energies, and by fitting it with a straight line it is possible to calculate the offset and gain for each module i.e. calibrate it as a function of the energy. Please check that this automated fitting procedure succeeds. In case you see many fitting errors you should try to check wether the variable you edited in \textsf{root/CalAllModules.C} are all correct or try to edit the fitting procedures in the two root macro files (sorry!).
\item Copy the calibration file you obtained to \textsf{calibration}/\textit{settings}\textsf{.snxxx}~\footnote{The default name of the calibration file \textsf{calibration/}\textit{settings}\textsf{.snxxx} where \textit{settings} is the chosen settings. You can change it in \textsf{src/qDetector.h} and then recompile the acquisition program.} By doing this the correct threshold for each module will be calculated every time you change the \textit{threhsold energy} in the \textit{global settings} box in the \textit{initialization} tab, you have loaded some default settings and you are not in expert mode.
\end{itemize}
\subsection{Why should I change the dynamic range of the counters?}
\subsection{When should I enable rate correction}
\subsubsection{How can I choose the dead time?}
\section{Analog detectors}
Various issues concerning calibration, dynamic gain switching, data handling data processing etc.
\subsection{(Dynamic) Gain Switching}
\subsection{Pedestals}
\subsection{Energy calibration}
\subsection{Data processing}
\section{Angular conversion}
\subsection{How is the channel number coverted into angle?}\label{sec:angcal}
Mythen II modules are composed by 1280 pixels, each having width p = 0:05 mm, and numbered with j = 0; : : : ; 1279.
Angles are counted counterclockwise from the beam direction. For the m-th module, the angle jm of its j-th pixel
center can be determined using the three geometric parameters Rm [mm], m [deg], Dm [mm], as in Fig. 1. The
detector group uses instead the 3 parameters center cm [ ], oset om [deg], conversion km [ ]. The law with the 3
geometric parameter is
jm = m ô
180
arctan
Dm ô pj
Rm
(1)
1
The corresponding law using DG's parameters is
jm = om +
180
cmkm +
180
arctan [(j ô cm)km] (2)
One can convert the two forms by equating separately the term out of the arctan and the argument of arctan for two
dierent values of j. It results
cm =
Dm
p
; (3)
km =
p
Rm
; (4)
om = m ô
180
Dm
Rm
: (5)
Conversely,
m = om +
180
cmkm; (6)
Rm =
p
km
; (7)
Dm = cmp: (8)
2
This section is specifically (but not only) for larger systems for powder diffraction. It is assumed that the scripts for moving the detector axis have been adopted to the beamline (see chapter~\ref{cha:integration}). For the angular calibration a Si sample is mounted and the detector is moved in steps of 0.1 deg over the 111 peak. Afterwards the recorded data has to be analyzed to produce the angular calibration file.
The procedure for the data taking is as follows:
\begin{enumerate}
\item Setup the detector trimmed with the correct settings (not important which) an the threshold at half of the X-ray energy.
\item Mount the silicon capillary and select the acquisition time to verify that the peak has a height of more than 5000 counts. Make sure the detector is operated in the linear region of the count rate, otherwise use more filters and a longer acquisition time. The energy is not very important, but it should not be very low (>10~keV).
\item Move the detector to the angular position such that the Si111 peak is just before the first module.
\item Select both header before and header after (the detector position needs to be written in the header files!) and click on \textit{scan}, \textit{before each frame} selecting a scrip that moves the motor. In the scan variable range set the start position such that Si111 peak is just before the first module, the stop position when the Si111 peak is already out of the last module (e.g. start position - (detector range +5)) and a step of 0.1 deg.
\item Start the acquisition. It is very likely that if your detector is large it will take several minutes or even hours.
\end{enumerate}
Edit the script \textit{angcal.awk} and set the STARTPOSITION variable to the current position. In the \textit{Acquisition} tab set the number of positions to 0, scan, type none, script before frame and with the Browse button select angcal.awk. Set scan from to 0. To should be a few degrees more than 10x the angular coverage of the detector (e.g. 950 for a 90deg detector). This is because the detector is stepped in steps of 0.1 deg. The step size should be 1. For this example the number of steps should be 950. Press start to begin the data taking. After data taking has finished open a terminal, go to the directory where the data is and start root.
For the data analysis (will be upgraded):
\begin{enumerate}
\item Start root
\item Edit the file \$MYTHENDIR/root/convertNewMythenIInew.C to match your setup (epics variable, direction etc.)
\item Load the macro file convertNewMythenIInew.C:
\texttt{root\$ .L \$MYTHENDIR/root/convertNewMythenIInew.C+}
\item Run the analysis function:
\texttt{root\$ fitangle(fname,extension, start, stop, startangle, stopangle);}
where fname is the file name (with complete path), extension should be ``.raw'', start is the start position, stop is the stop position, start angle should be the position of the silicon peak -0.5 deg and stop angle the position of the silicon peak +0.5 deg.
\item The procedure will produce a file ang.off containing the angular calibration coefficients for your detector. Copy it to your default location and set it in the config file of the GUI (see section~\ref{sec:configtxt}).
\end{enumerate}
\subsection{How are different positions merged together?}\label{sec:merging}
\subsubsection{Why can't I properly merge different positions?}
From my experience, when data don't merge properly after flat-file corrections there are mainly two reasons:
\begin{itemize}
\item FLUORESCENCE. We ahve already discussed about it and normally it shouws up as differences between individual channels or groups of channels i.e. the patterns don't match in several places.
This does not seem the case, in my opinion (but do you know exactly what's inside Aspirin?)
\item Background scattering from the air. When you move the detector the walls of the housing make a different shadow on the modules and at small angles if you have no beamstopper it could even be backscattering from the housing hit by the beam in the different positions. The only way of improving it is to properly place the beamstopper and to avoid air scattering before the sample e.g. by using a "nose" from the end of your flight tube to very close to the sample.
Of course the problem is stronger at lower energies (more air scattering) and normally with the detector positioned at low angles (scattering from the housing, shadowing of the "forward" scattered beam).
When you see this problem you could try to take data e.g. at 20-25 degrees instead of 5-10 degrees and see if it's still there.
It could also be that the geometry of your housing with the flat window and shorter path inside the housing amplifies the problem, so that you should take special care of it with respect to the SLS where we have just a feww cm before entering the housing and then half a meter inside it.
\item Your sample changes over time e.g. in case of radiation damage and long exposure times (usually several seconds).
\end{itemize}
\end{document}