Tools for parsing and plotting a power trace from Contiki

tools/powertrace/Makefile.powertrace

@@ -0,0 +1,48 @@
+ifdef LOG
+powertrace-parse:
+	cat $(LOG) | grep -a "P " | $(CONTIKI)/tools/powertrace/parse-power-data > powertrace-data
+	cat $(LOG) | grep -a "P " | $(CONTIKI)/tools/powertrace/parse-node-power | sort -nr > powertrace-node-data
+	cat $(LOG) | $(CONTIKI)/tools/powertrace/parse-sniff-data | sort -n > powertrace-sniff-data
+else #LOG
+powertrace-parse:
+	@echo LOG must be defined to point to the powertrace log file to parse
+endif #LOG
+
+powertrace-plot:
+	gnuplot $(CONTIKI)/tools/powertrace/plot-power || echo gnupot failed
+
+powertrace-show:
+	gv powertrace-power.eps
+	gv powertrace-node-power.eps
+	gv powertrace-sniff-power.eps
+
+powertrace-all: powertrace-parse powertrace-plot powertrace-show
+
+powertrace-help:
+	@echo Contiki powertrace is a tool that helps with collecting power data
+	@echo from motes. The data can be collected from a testbed or from a Cooja
+	@echo simulation. The powertrace data consists of lines of text that include
+	@echo the capital letter P followed by a list of numbers that contain the
+	@echo measured time that mote peripherals were switched on.
+	@echo 
+	@echo A powertrace data file can be parsed and plotted with build-in
+	@echo powertrace scripts.
+	@echo 
+	@echo To parse a data file with powertrace data, run:
+	@echo 
+	@echo   make powertrace-parse LOG=logfile
+	@echo 
+	@echo to plot the parsed data, do:
+	@echo 
+	@echo   make powertrace-plot
+	@echo 
+	@echo this produces two files called powertrace-power.eps and
+	@echo powertrace-node-power.eps. To show these files, run:
+	@echo 
+	@echo   make powertrace-show
+	@echo 
+	@echo For convenience, all three above make targets can be combined into
+	@echo one:
+	@echo 
+	@echo   make powertrace-all LOG=logfile
+	@echo 

tools/powertrace/parse-node-power

@@ -0,0 +1,55 @@
+#!/usr/bin/perl
+
+$max_seq = 0;
+
+for($i = 0; $i < 1000; $i++) {
+    $max_radio[$i] = 0;
+    $min_radio[$i] = 10000;
+}
+
+while(<>) {
+
+    if(/P (\d+) (\d+) (\d+) (\d+) (\d+) (\d+) (\d+) (\d+)/) {
+        $node    = $1;
+        $seq     = $2;
+        $cpu     = $3;
+        $lpm     = $4;
+        $tx      = $5;
+        $rx      = $6;
+        $idle_tx = $7;
+        $idle_rx = $8;
+        
+        $nodes{$node} = 1;
+        
+        $radio_now = $tx + $rx;
+        $idle_now  = $idle_tx + $idle_rx;
+        $cpu_now = $lpm + $cpu;
+        $dutycycle = $radio_now / $cpu_now;
+        
+        $dutycycle_for_node[$node][$seq] = $dutycycle;
+        $idle_for_node[$node][$seq] = $idle_now / $cpu_now;
+
+        if($seq > $max_seq) {
+            $max_seq = $seq;
+        }
+    }
+}
+
+foreach $j (keys %nodes) {
+    $avg = 0;
+    for($i = 0; $i < $max_seq; $i++) {
+        $avg += $dutycycle_for_node[$j][$i];
+    }
+    $idle_avg = 0;
+    for($i = 0; $i < $max_seq; $i++) {
+        $idle_avg += $idle_for_node[$j][$i];
+    }
+    print $avg / $max_seq . " " . $idle_avg / $max_seq . " $j\n";
+
+    $total_avg += $avg;
+    $total_idle += $idle_avg;
+}
+print "\n";
+
+print STDERR "Idle percentage " . $total_idle / $total_avg . "\n";
+#print STDERR "Mean duty cycle " . 100 * $mean / $num_mean . "\n";

tools/powertrace/parse-power-data

@@ -0,0 +1,71 @@
+#!/usr/bin/perl
+
+$max_seq = 0;
+
+for($i = 0; $i < 1000; $i++) {
+    $max_radio[$i] = 0;
+    $min_radio[$i] = 10000;
+}
+
+while(<>) {
+
+    if(/P (\d+) (\d+) (\d+) (\d+) (\d+) (\d+)/) {
+        $node = $1;
+        $seq = $2;
+        $cpu = $3;
+        $lpm = $4;
+        $tx = $5;
+        $rx = $6;
+        
+        $nodes{$node} = 1;
+        
+        $radio_now = $tx + $rx;
+        $cpu_now = $lpm + $cpu;
+        $dutycycle = $radio_now / $cpu_now;
+        
+        $dutycycle_for_node[$node][$seq] = $dutycycle;
+        
+#            print STDERR "Node $node Seq $seq duty cycle " . ($tx + $rx)/($lpm + $cpu) . ", " . ($tx + $rx) . "/" . ($lpm + $cpu) . "\n";
+        $radio[$seq] += $radio_now;
+        $time[$seq] += $cpu_now;
+        
+        if($seq >= 0) {
+            $mean += $dutycycle;
+            $num_mean++;
+        }
+        
+        if($dutycycle > $max_radio[$seq]) {
+            $max_radio[$seq] = $dutycycle;
+        }
+        
+        if($dutycycle < $min_radio[$seq]) {
+            $min_radio[$seq] = $dutycycle;
+        }
+        if($seq > $max_seq) {
+            $max_seq = $seq;
+        }
+
+    }
+}
+
+for($i = 0; $i < $max_seq; $i++) {
+    if($time[$i] != 0) {
+        print "$i " . $radio[$i] / $time[$i] . " " . $min_radio[$i] . " ". $max_radio[$i] . " ";
+        foreach $j (keys %nodes) {
+            print $dutycycle_for_node[$j][$i] . " ";
+        }
+        print "\n";
+    }
+}
+
+foreach $j (keys %nodes) {
+    $avg = 0;
+    for($i = 0; $i < $max_seq; $i++) {
+        $avg += $dutycycle_for_node[$j][$i];
+    }
+    print STDERR "Node $j avg duty cycle " . 100 * $avg / $max_seq . "\n";
+}
+
+if($num_mean != 0) {
+    print STDERR "Mean duty cycle " . 100 * $mean / $num_mean . "\n";
+}

tools/powertrace/parse-sniff-data

@@ -0,0 +1,43 @@
+#!/usr/bin/perl
+
+while(<>) {
+
+    if(/([IO]) (\d+) (\d+) (\d+) (\d+) (\d+).(\d+) (\d+) (\d+)/) {
+        $type       = $1;
+        $node       = $2;
+        $seq        = $3;
+        $channel    = $4;
+        $packettype = $5;
+        $esender1   = $6;
+        $esender2   = $7;
+        $tx         = $8;
+        $rx         = $9;
+
+        if($type cmp "I") {
+            $channel .= "-tx";
+        } else {
+            $channel .= "-rx";
+        }
+
+        if($packettype == 1) {
+            $channel .= "-ack"
+        } 
+        
+        $tx_for_channel{$channel} += $tx;
+        $rx_for_channel{$channel} += $rx;
+        $total += $rx + $tx;
+
+        if($forwarding) {
+            $forward += $tx + $rx;
+        } else {
+            $final += $tx + $rx;
+        }
+           
+    }
+}
+
+foreach $c (keys %tx_for_channel) {
+    print "$c " . $tx_for_channel{$c}/$total . " " . $rx_for_channel{$c}/$total . "\n";
+}
+
+print STDERR "Final / forward = " . $final / $total . "/" . $forward / $total . "\n";

tools/powertrace/plot-power

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+set key top right
+
+set data style boxes
+set pointsize 2
+
+set ylabel "Radio duty cycle (%)"
+set xlabel "Time (s)"
+set terminal postscript eps enhanced "Helvetica" 16 lw 4 dl 5
+
+set output "powertrace-power.eps"
+set title "Average radio duty cycle (percent) over time"
+plot [0:] [0:] 'powertrace-data' using ($1*10):($2*100) with lines notitle
+
+set output "powertrace-node-power.eps"
+set boxwidth 0.3
+set title "Per-node radio duty cycle"
+set ylabel "Radio duty cycle (%)"
+set xlabel "Node number"
+plot [-1:] [0:] 'powertrace-node-data' using 0:(100*$1) with boxes fs solid title "Total", \
+'' using ($0 + 0.4):(100*$2) with boxes fs solid title "Idle", \
+'' using 0:(100*$1):3 with labels center offset 0,1 notitle
+
+
+set key top left
+set boxwidth 0.6
+set output "powertrace-sniff-power.eps"
+set title "Per-channel radio usage"
+set ylabel "Percent (%)"
+set xlabel "Channel number"
+plot [:] [0:] 'powertrace-sniff-data'  using 0:(100 * ($3 + $2)) with boxes title "Listen", \
+'' using 0:(100 * $2):xticlabel(1) with boxes title "Transmission"