#
# Test Data from Marina Chip #12
#
+# This file is valid gnuplot input.
+#
# Each test consists of setting the input voltage, loading the
# instruction ring with a certain number of NOPS, and then observing
# the number of executions which occur in a 300ms time period
# permanent damage; the chip continued to malfunction when set back
# to normal voltages.
#
-# This file is in a format suitable for being read by gnuplot. I
-# use the following plot commands:
-#
-# set terminal pdf
-# set title "Marina Canopy Plot, Chip #12"
-# set output "marina12-data.pdf"
-# set xlabel "number of instructions in ring"
-# set ylabel "BILLIONS of instructions executed per second"
-#
-# set arrow 1 from 1.5,3.716 to 12,3.716 nohead linetype 4 lc rgb "#000000"
-# set label 1 "3.7 GOP/s" at 0.3,3.7 left
-#
-# set arrow 2 from 1.5,7.67 to 10,7.67 nohead linetype 4 lc rgb "#000000"
-# set label 2 "7.6 GOP/s" at 0.3,7.67 left
-#
-# plot "marina12-data.txt" index 3 using 2:3 title "" with lines lc rgb "#aaaaaa", \
-# "" index 2 using 2:3 title "vdd=2.95" with linespoints lw 6 pt 8 lc rgb "#dd0000", \
-# "" index 0 using 2:3 title "vdd=1.00" with linespoints lw 6 pt 6 lc rgb "#00dd00", \
-# "" index 1 using 2:3 title "vdd=0.40" with linespoints lw 6 pt 10 lc rgb "#0000dd"
-# quit
-#
# A single blank line has been placed between each group of samples
# at a particular vdd setting, and the groups have been re-ordered
# so that the nominal-vdd group comes first, followed by min-vdd,
# collections. For example, "plot index 0:2 ..." will give you just
# the min, nominal, and max contours.
#
+set terminal pdf
+set title "Marina Canopy Plot, Chip #12"
+set output "marina12-data.pdf"
+set xlabel "number of instructions in ring"
+set ylabel "BILLIONS of instructions executed per second"
+set arrow 1 from 1.5,3.716 to 12,3.716 nohead linetype 4 lc rgb "#000000"
+set label 1 "3.7 GOP/s" at 0.3,3.7 left
+set arrow 2 from 1.5,7.67 to 10,7.67 nohead linetype 4 lc rgb "#000000"
+set label 2 "7.6 GOP/s" at 0.3,7.67 left
-1.0 0 0.0
-1.0 1 0.9275696019999999
-1.0 2 1.8573051995
-1.0 3 2.78130313
-1.0 4 3.7000090764999998
-1.0 5 3.715053691
-1.0 6 3.7163408845
-1.0 7 3.712744251
-1.0 8 3.7130339085000004
-1.0 9 3.714913011
-1.0 10 2.8342246044999997
-1.0 11 1.4261572415
-1.0 12 0.0
-
-
-0.4 0 0.0
-0.4 1 0.0698507965
-0.4 2 0.139327018
-0.4 3 0.209870672
-0.4 4 0.26231044849999996
-0.4 5 0.26232253949999995
-0.4 6 0.26215192049999997
-0.4 7 0.2624194395
-0.4 8 0.262169147
-0.4 9 0.26219066399999996
-0.4 10 0.208605706
-0.4 11 0.10484677849999999
-0.4 12 0.0
-
-
-2.95 0 0.0
-2.95 1 2.067674824
-2.95 2 4.045029974
-2.95 3 5.956288443999999
-2.95 4 7.666481924000001
-2.95 5 7.649816762
-2.95 6 7.676890172000002
-2.95 7 7.658147881
-2.95 8 7.661990915
-2.95 9 7.6592752520000005
-2.95 10 6.187673244
-2.95 11 3.212041193
-2.95 12 0.0
-
+plot '-' using 2:3 title "" with lines lc rgb "#aaaaaa", \
+ '-' using 2:3 title "vdd=1.00" with linespoints lw 6 pt 6 lc rgb "#00dd00", \
+ '-' using 2:3 title "vdd=0.40" with linespoints lw 6 pt 10 lc rgb "#0000dd", \
+ '-' using 2:3 title "vdd=2.95" with linespoints lw 6 pt 8 lc rgb "#dd0000"
0.45 0 0.0
0.45 1 0.1168395615
2.9 10 6.1875573290000005
2.9 11 3.218997857
2.9 12 0.0
+e
+
+1.0 0 0.0
+1.0 1 0.9275696019999999
+1.0 2 1.8573051995
+1.0 3 2.78130313
+1.0 4 3.7000090764999998
+1.0 5 3.715053691
+1.0 6 3.7163408845
+1.0 7 3.712744251
+1.0 8 3.7130339085000004
+1.0 9 3.714913011
+1.0 10 2.8342246044999997
+1.0 11 1.4261572415
+1.0 12 0.0
+e
+
+0.4 0 0.0
+0.4 1 0.0698507965
+0.4 2 0.139327018
+0.4 3 0.209870672
+0.4 4 0.26231044849999996
+0.4 5 0.26232253949999995
+0.4 6 0.26215192049999997
+0.4 7 0.2624194395
+0.4 8 0.262169147
+0.4 9 0.26219066399999996
+0.4 10 0.208605706
+0.4 11 0.10484677849999999
+0.4 12 0.0
+e
+
+2.95 0 0.0
+2.95 1 2.067674824
+2.95 2 4.045029974
+2.95 3 5.956288443999999
+2.95 4 7.666481924000001
+2.95 5 7.649816762
+2.95 6 7.676890172000002
+2.95 7 7.658147881
+2.95 8 7.661990915
+2.95 9 7.6592752520000005
+2.95 10 6.187673244
+2.95 11 3.212041193
+2.95 12 0.0
+e