Add sendmmsg benchamark

[can-benchmark.git] / recvmmsg / plot.gp

# termsize 7cm,7cm
set grid

set xlabel "Frames [×1000]"
set ylabel "RX Time [ms]"
set y2label "TX Time [ms]"
set y2tics
set key left reverse Left

fit ard*x+brd "data" using 1:5  via ard, brd
fit arm*x+brm "data" using 1:10 via arm, brm

fit awr*x+bwr "data" using 1:3 via awr, bwr
fit asm*x+bsm "data" using 1:8 via asm, bsm

set yrange [0:]
set y2range [0:]

brd=brd/1000
brm=brm/1000
bwr=bwr/1000
bsm=bsm/1000

plot 'data' using ($1/1000):($5/1000)  lc 1 title 'read()', \
     'data' using ($1/1000):($10/1000) lc 1 title 'recvmmsg()', \
     'data' using ($1/1000):($3/1000) lc 2 axes x1y2 title 'write()', \
     'data' using ($1/1000):($8/1000) lc 2 axes x1y2 title 'sendmmsg()', \
     ard*x+brd with lines lt 1 lc rgbcolor "#aa0000" lw 1 title "", \
     arm*x+brm with lines lt 2 lc rgbcolor "#aa0000" lw 1 title "", \
     awr*x+bwr with lines axes x1y2 lt 1 lc rgbcolor "#00aa00" lw 1 title "", \
     asm*x+bsm with lines axes x1y2 lt 2 lc rgbcolor "#00aa00" lw 1 title ""

# aread*x+bread - arecv*x-brecv = 0
# (aread-arecv)*x = brecv-bread
xeq = (brm-brd)/(ard-arm)
print "ard = ", ard
print "arm = ", arm
print "arm/ard = ", arm/ard
print "Intersection at x = ", xeq
print ""

xeq = (bsm-bwr)/(awr-asm)
print "awr = ", awr
print "asm = ", asm
print "asm/awr = ", asm/awr
print "Intersection at x = ", xeq