#!/usr/bin/perl -w
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#!/usr/bin/perl -w
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use strict;
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use strict;
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use warnings;
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use warnings;
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use List::Util 'shuffle';
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use List::Util 'shuffle';
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require "widget.pl";
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require "widget.pl";
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require "traffic_pattern.pl";
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use constant SIM_RAM_GEN => 0;
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use constant SIM_RAM_GEN => 0;
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use constant JTAG_STATIC_INDEX => 124;
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use constant JTAG_STATIC_INDEX => 124;
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use constant JTAG_RAM_INDEX => 125;
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use constant JTAG_RAM_INDEX => 125;
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use constant JTAG_COUNTER_INDEX=>126;
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use constant JTAG_COUNTER_INDEX=>126;
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use constant JTAG_DONE_RESET_INDEX => 127;
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use constant JTAG_DONE_RESET_INDEX => 127;
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use constant STATISTIC_NUM =>8;
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use constant STATISTIC_NUM =>8;
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use constant CLK_CNTw=> 30; #log2(MAX_SIM_CLKs);
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use constant CLK_CNTw=> 30; #log2(MAX_SIM_CLKs);
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#use constant RESET_NOC => " $ENV{'JTAG_INTFC'} -n ".JTAG_DONE_RESET_INDEX." -d \"I:1,D:2:1,I:0\" ";
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#use constant RESET_NOC => " $ENV{'JTAG_INTFC'} -n ".JTAG_DONE_RESET_INDEX." -d \"I:1,D:2:1,I:0\" ";
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#use constant UNRESET_NOC => " $ENV{'JTAG_INTFC'} -n ".JTAG_DONE_RESET_INDEX." -d \"I:1,D:2:0,I:0\" ";
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#use constant UNRESET_NOC => " $ENV{'JTAG_INTFC'} -n ".JTAG_DONE_RESET_INDEX." -d \"I:1,D:2:0,I:0\" ";
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use constant READ_DONE_CMD => " \" -n ".JTAG_DONE_RESET_INDEX." -d I:2,R:2:0,I:0 \" ";
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use constant READ_DONE_CMD => " \" -n ".JTAG_DONE_RESET_INDEX." -d I:2,R:2:0,I:0 \" ";
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use constant READ_COUNTER_CMD => " \" -n ".JTAG_COUNTER_INDEX." -d I:2,R:".CLK_CNTw.":0,I:0 \" ";
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use constant READ_COUNTER_CMD => " \" -n ".JTAG_COUNTER_INDEX." -d I:2,R:".CLK_CNTw.":0,I:0 \" ";
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use constant UPDATE_WB_ADDR => 0x7;
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use constant UPDATE_WB_ADDR => 0x7;
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use constant UPDATE_WB_WR_DATA => 0x6;
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use constant UPDATE_WB_WR_DATA => 0x6;
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use constant UPDATE_WB_RD_DATA => 0x5;
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use constant UPDATE_WB_RD_DATA => 0x5;
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use constant RD_WR_STATUS => 0x4;
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use constant RD_WR_STATUS => 0x4;
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use constant PROBE_ST => 0x2;
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use constant PROBE_ST => 0x2;
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use constant SOURCE_ST => 0x1;
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use constant SOURCE_ST => 0x1;
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use constant BYPAS_ST => 0x0;
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use constant BYPAS_ST => 0x0;
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#use constant RAM_BIN_FILE => "$ENV{'PRONOC_WORK'}/emulate/emulate_ram.bin";
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#use constant RAM_BIN_FILE => "$ENV{'PRONOC_WORK'}/emulate/emulate_ram.bin";
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#use constant RAM_SIM_FILE => "$ENV{'PRONOC_WORK'}/emulate/ram";
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#use constant RAM_SIM_FILE => "$ENV{'PRONOC_WORK'}/emulate/ram";
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sub reset_cmd {
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sub reset_cmd {
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my ($ctrl_reset, $noc_reset,$jtag_intfc)=@_;
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my ($ctrl_reset, $noc_reset,$jtag_intfc)=@_;
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my $reset_vector= (($ctrl_reset & 0x1) << 1) + ($noc_reset & 0x1);
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my $reset_vector= (($ctrl_reset & 0x1) << 1) + ($noc_reset & 0x1);
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my $cmd = "sh $jtag_intfc \" -n ".JTAG_DONE_RESET_INDEX." -d I:1,D:2:$reset_vector,I:0 \" ";
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my $cmd = "sh $jtag_intfc \" -n ".JTAG_DONE_RESET_INDEX." -d I:1,D:2:$reset_vector,I:0 \" ";
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#print "$cmd\n";
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#print "$cmd\n";
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return $cmd;
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return $cmd;
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}
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}
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sub set_time_limit_cmd {
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sub set_time_limit_cmd {
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my ($time_limit,$jtag_intfc)=@_;
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my ($time_limit,$jtag_intfc)=@_;
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my $hex = sprintf("0x%X", $time_limit);
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my $hex = sprintf("0x%X", $time_limit);
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my $cmd = "sh $jtag_intfc \" -n ".JTAG_COUNTER_INDEX." -d I:1,D:".CLK_CNTw.":$hex,I:0 \" ";
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my $cmd = "sh $jtag_intfc \" -n ".JTAG_COUNTER_INDEX." -d I:1,D:".CLK_CNTw.":$hex,I:0 \" ";
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print "$cmd\n";
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#print "$cmd\n";
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return $cmd;
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return $cmd;
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}
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}
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sub help {
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sub help {
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print
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print
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" usage: ./ram_gen X Y TRAFFIC
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" usage: ./ram_gen X Y TRAFFIC
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X: number of node in X direction 2<x<=16
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X: number of node in X direction 2<x<=16
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Y: number of node in Y direction 2<y<=16
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Y: number of node in Y direction 2<y<=16
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TRAFFIC : select one of the following traffic patterns :
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TRAFFIC : select one of the following traffic patterns :
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tornado,
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tornado,
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transposed 1,
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transposed 1,
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transposed 2,
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transposed 2,
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random,
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random,
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";
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";
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}
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}
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sub random_dest_gen {
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sub random_dest_gen {
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my $n=shift;
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my $n=shift;
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my @c=(0..$n-1);
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my @c=(0..$n-1);
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my @o;
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my @o;
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for (my $i=0; $i<$n; $i++){
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for (my $i=0; $i<$n; $i++){
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my @l= shuffle @c;
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my @l= shuffle @c;
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@l=remove_scolar_from_array(\@l,$i);
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@l=remove_scolar_from_array(\@l,$i);
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$o[$i]=\@l;
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$o[$i]=\@l;
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}
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}
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return \@o;
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return \@o;
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}
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}
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sub run_cmd_update_info {
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sub run_cmd_update_info {
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my ($cmd,$info)=@_;
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my ($cmd,$info)=@_;
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my ($stdout,$exit,$stderr)=run_cmd_in_back_ground_get_stdout($cmd);
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my ($stdout,$exit,$stderr)=run_cmd_in_back_ground_get_stdout($cmd);
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if($exit){
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if($exit){
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add_colored_info($info, "$stdout\n",'red') if(defined $stdout);
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add_colored_info($info, "$stdout\n",'red') if(defined $stdout);
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add_colored_info($info, "$stderr\n",'red') if(defined $stderr);
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add_colored_info($info, "$stderr\n",'red') if(defined $stderr);
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}
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}
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#print "\n$cmd \n $stdout";
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#print "\n$cmd \n $stdout";
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return $exit;
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return $exit;
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}
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}
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sub synthetic_destination{
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my($traffic,$x,$y,$xn,$yn,$line_num,$rnd)=@_;
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my $dest_x;
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my $dest_y;
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my $xw = log2($xn);
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my $yw = log2($yn);
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if( $traffic eq "transposed 1"){
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$dest_x= $xn-$y-1;
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$dest_y= $yn-$x-1;
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} elsif( $traffic eq "transposed 2"){
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$dest_x = $y;
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$dest_y = $x;
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} elsif( $traffic eq "bit reverse"){
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my $joint_addr= ($x << log2($xn))+$y;
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my $reverse_addr=0;
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my $pos=0;
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for(my $i=0; $i<($xw+$yw); $i++){#reverse the address
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$pos= ((($xw+$yw)-1)-$i);
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$reverse_addr|= (($joint_addr >> $pos) & 0x01) << $i;
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# reverse_addr[i] = joint_addr [((Xw+Yw)-1)-i];
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}
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$dest_x = $reverse_addr>>$yw;
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$dest_y = $reverse_addr&(0xFF>> (8-$yw));
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} elsif( $traffic eq "bit complement") {
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$dest_x = (~$x) &(0xFF>> (8-$xw));
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$dest_y = (~$y) &(0xFF>> (8-$yw));
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}elsif( $traffic eq "tornado") {
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#[(x+(k/2-1)) mod k, (y+(k/2-1)) mod k],
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$dest_x = (($x + (($xn/2)-1))%$xn);
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$dest_y = (($y + (($yn/2)-1))%$yn);
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}elsif( $traffic eq "random") {
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#my $num=($y * $xn) + $x;
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my $xc=$xn * $yn;
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my @randoms=@{$rnd};
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my $num=($y * $xn) + $x;
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my $dest = @{$randoms[$num]}[$line_num-1];
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#print "$num:$dest, "; # \@{ \$randoms\[$num\]\}\[$line_num\]";
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$dest_x = $dest % $xn;
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$dest_y = $dest / $xn;
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} else{#off
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print "***********************************$traffic is not defined*******************************************\n";
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$dest_x= $x;
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$dest_y= $y;
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}
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return ($dest_x,$dest_y);
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sub synthetic_destination{
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my($self,$sample,$traffic,$endp,$line_num,$rnd)=@_;
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return pck_dst_gen ($self,$sample,$traffic,$endp,$line_num,$rnd);
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}
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}
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sub gen_synthetic_traffic_ram_line{
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sub gen_synthetic_traffic_ram_line{
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my ($emulate, $x, $y, $sample,$ratio ,$line_num,$rnd)=@_;
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my ($emulate, $endp, $sample,$ratio ,$line_num,$rnd)=@_;
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my ($topology, $T1, $T2, $T3, $V, $Fpay) = get_sample_emulation_param($emulate,$sample);
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my ($NE, $NR, $RAw, $EAw, $Fw) = get_topology_info_sub ($topology, $T1, $T2, $T3, $V, $Fpay);
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my $ref=$emulate->object_get_attribute("$sample","noc_info");
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my %noc_info= %$ref;
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my $xn=$noc_info{NX};
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my $yn=$noc_info{NY};
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my $traffic=$emulate->object_get_attribute($sample,"traffic");
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my $traffic=$emulate->object_get_attribute($sample,"traffic");
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my $pck_num_to_send=$emulate->object_get_attribute($sample,"PCK_NUM_LIMIT");
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my $pck_num_to_send=$emulate->object_get_attribute($sample,"PCK_NUM_LIMIT");
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my $pck_size=$emulate->object_get_attribute($sample,"PCK_SIZE");
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my $pck_size=$emulate->object_get_attribute($sample,"PCK_SIZE");
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my $pck_class_in=0;
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my $pck_class_in=0;
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if($line_num==0){ #first ram line shows how many times the ram content must be read
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if($line_num==0){ #first ram line shows how many times the ram content must be read
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#In random traffic each node sends 2 packets to other NC-1 nodes for (pck_num_to_send/2) times
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#In random traffic each node sends 2 packets to other NC-1 nodes for (pck_num_to_send/2) times
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my $ram_cnt= ($traffic eq 'random')? ($pck_num_to_send/(2*(($xn * $yn)-1)))+1:0 ;
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my $ram_cnt= ($traffic eq 'random')? ($pck_num_to_send/(2*($NE-1)))+1:0 ;
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return (0,$ram_cnt);
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return (0,$ram_cnt);
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}
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}
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return (0,0) if($line_num>1 && $traffic ne 'random');
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return (0,0) if($line_num>1 && $traffic ne 'random');
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return (0,0) if( $line_num>= $xn * $yn);
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return (0,0) if( $line_num>= $NE);
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#assign {pck_num_to_send_in,ratio_in, pck_size_in,dest_x_in, dest_y_in,pck_class_in, last_adr_in}= q_a;
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#assign {pck_num_to_send_in,ratio_in, pck_size_in,dest_x_in, dest_y_in,pck_class_in, last_adr_in}= q_a;
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my $last_adr = ( $traffic ne 'random') ? 1 :
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my $last_adr = ( $traffic ne 'random') ? 1 :
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($line_num ==($xn * $yn)-1)? 1 :0;
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($line_num ==$NE-1)? 1 :0;
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my ($dest_x, $dest_y)=synthetic_destination($traffic,$x,$y,$xn,$yn,$line_num,$rnd);
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my $dest_e_addr=synthetic_destination($emulate,$sample,$traffic,$endp,$line_num,$rnd);
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#print "$endp->$dest_e_addr\n";
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my $vs= ( $traffic eq 'random')? 2 : $pck_num_to_send;
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my $vs= ( $traffic eq 'random')? 2 : $pck_num_to_send;
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$vs=($vs << 2 )+ ($ratio >>5) ;
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$vs=($vs << 2 )+ ($ratio >>5) ;
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my $vl= ($ratio %32);
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my $vl= ($ratio %32);
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$vl=($vl << PCK_SIZw )+$pck_size;
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$vl=($vl << PCK_SIZw )+$pck_size;
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$vl=($vl << MAXXw )+$dest_x;
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$vl=($vl << MAX_EAw )+$dest_e_addr;
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$vl=($vl << MAXYw )+$dest_y;
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$vl=($vl << MAXCw )+$pck_class_in;
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$vl=($vl << MAXCw )+$pck_class_in;
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$vl=($vl << 1 )+$last_adr;
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$vl=($vl << 1 )+$last_adr;
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return ($vs,$vl);
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return ($vs,$vl);
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}
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}
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sub generate_synthetic_traffic_ram{
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sub generate_synthetic_traffic_ram{
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my ($emulate,$x,$y,$sample,$ratio , $file,$rnd,$num)=@_;
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my ($emulate,$endp,$sample,$ratio , $file,$rnd)=@_;
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my $line_num;
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my $line_num;
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my $line_value;
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my $line_value;
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my $ram;
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my $ram;
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if(SIM_RAM_GEN){
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if(SIM_RAM_GEN){
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my $ext= sprintf("%02u.txt",$num);
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my $ext= sprintf("%02u.txt",$endp);
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open( $ram, '>', "$ENV{'PRONOC_WORK'}/emulate/ram".$ext) || die "Can not create: \"$ENV{'PRONOC_WORK'}/emulate/ram.$ext\" $!";
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open( $ram, '>', "$ENV{'PRONOC_WORK'}/emulate/ram".$ext) || die "Can not create: \"$ENV{'PRONOC_WORK'}/emulate/ram.$ext\" $!";
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}
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}
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for ($line_num= 0; $line_num<RAM_SIZE; $line_num++ ) {
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for ($line_num= 0; $line_num<RAM_SIZE; $line_num++ ) {
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my ($value_s,$value_l)=gen_synthetic_traffic_ram_line ($emulate, $x, $y, $sample, $ratio ,$line_num,$rnd);
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my ($value_s,$value_l)=gen_synthetic_traffic_ram_line ($emulate, $endp, $sample, $ratio ,$line_num,$rnd);
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#printf ("\n%08x\t",$value_s);
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#printf ("\n%08x\t",$value_s);
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#printf ("%08x\t",$value_l);
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#printf ("%08x\t",$value_l);
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if(SIM_RAM_GEN){
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if(SIM_RAM_GEN){
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my $s=sprintf("%08X%08x",$value_s,$value_l);
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my $s=sprintf("%08X%08x",$value_s,$value_l);
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print $ram "$s\n";
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print $ram "$s\n";
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}
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}
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print_32_bit( $file, $value_s); # most significent 32 bit
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print_32_bit( $file, $value_s); # most significent 32 bit
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print_32_bit( $file, $value_l); # list significent 32 bit
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print_32_bit( $file, $value_l); # list significent 32 bit
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}
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}
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if(SIM_RAM_GEN){
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if(SIM_RAM_GEN){
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close($ram);
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close($ram);
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}
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}
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#print "\n";
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#print "\n";
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#last ram three rows reserved for reading data from emulator
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#last ram three rows reserved for reading data from emulator
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}
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}
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sub print_32_bit {
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sub print_32_bit {
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my ($file,$v)=@_;
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my ($file,$v)=@_;
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for (my $i= 24; $i >=0 ; $i-=8) {
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for (my $i= 24; $i >=0 ; $i-=8) {
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my $byte= ($v >> $i ) & 0xFF;
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my $byte= ($v >> $i ) & 0xFF;
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print $file pack('C*',$byte);
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print $file pack('C*',$byte);
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#printf ("%02x\t",$byte);
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#printf ("%02x\t",$byte);
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}
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}
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}
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}
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sub generate_emulator_ram {
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sub generate_emulator_ram {
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my ($emulate, $sample,$ratio_in,$info)=@_;
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my ($emulate, $sample,$ratio_in,$info)=@_;
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my $ref=$emulate->object_get_attribute($sample,"noc_info");
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my ($topology, $T1, $T2, $T3, $V, $Fpay) = get_sample_emulation_param($emulate,$sample);
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my %noc_info= %$ref;
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my ($NE, $NR, $RAw, $EAw, $Fw) = get_topology_info_sub ($topology, $T1, $T2, $T3, $V, $Fpay);
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my $C=$noc_info{C};
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my $xn=$noc_info{NX};
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my $yn=$noc_info{NY};
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my $xc=$xn*$yn;
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my $rnd=random_dest_gen($NE); # generate a matrix of sudo random number
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my $rnd=random_dest_gen($xc); # generate a matrix of sudo random number
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my $traffic=$emulate->object_get_attribute($sample,"traffic");
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my $traffic=$emulate->object_get_attribute($sample,"traffic");
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my @traffics=("tornado", "transposed 1", "transposed 2", "bit reverse", "bit complement","random", "hot spot" );
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my @traffics=("tornado", "transposed 1", "transposed 2", "bit reverse", "bit complement","random", "hot spot", "shuffle", "neighbor", "bit rotation" );
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if ( !defined $xn || $xn!~ /\s*\d+\b/ ){ add_info($info,"programe_pck_gens:invalid X value\n"); help(); return 0;}
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#if ( !defined $xn || $xn!~ /\s*\d+\b/ ){ add_info($info,"programe_pck_gens:invalid X value\n"); help(); return 0;}
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if ( !defined $yn || $yn!~ /\s*\d+\b/ ){ add_info($info,"programe_pck_gens:invalid Y value\n"); help(); return 0;}
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#if ( !defined $yn || $yn!~ /\s*\d+\b/ ){ add_info($info,"programe_pck_gens:invalid Y value\n"); help(); return 0;}
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if ( !grep( /^$traffic$/, @traffics ) ){add_info($info,"programe_pck_gens:$traffic is an invalid Traffic name\n"); help(); return 0;}
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if ( !grep( /^$traffic$/, @traffics ) ){add_info($info,"programe_pck_gens:$traffic is an invalid Traffic name\n"); help(); return 0;}
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if ( $xn <2 || $xn >16 ){ add_info($info,"programe_pck_gens:invalid X value: ($xn). should be between 2 and 16 \n"); help(); return 0;}
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if ( $EAw >8 ){ add_info($info,"programe_pck_gens:invalid EAw value: ($EAw). should be between 1 and 8 \n"); help(); return 0;}
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if ( $yn <2 || $yn >16 ){ add_info($info,"programe_pck_gens:invalid Y value:($yn). should be between 2 and 16 \n"); help(); return 0;}
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#if ( $yn <2 || $yn >16 ){ add_info($info,"programe_pck_gens:invalid Y value:($yn). should be between 2 and 16 \n"); help(); return 0;}
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#open file pointer
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#open file pointer
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#open(my $file, '>', RAM_BIN_FILE) || die "Can not create: \">lib/emulate/emulate_ram.bin\" $!";
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#open(my $file, '>', RAM_BIN_FILE) || die "Can not create: \">lib/emulate/emulate_ram.bin\" $!";
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open(my $file, '>', "$ENV{'PRONOC_WORK'}/emulate/emulate_ram.bin") || die "Can not create: \"$ENV{'PRONOC_WORK'}/emulate/emulate_ram.bin\" $!";
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open(my $file, '>', "$ENV{'PRONOC_WORK'}/emulate/emulate_ram.bin") || die "Can not create: \"$ENV{'PRONOC_WORK'}/emulate/emulate_ram.bin\" $!";
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#generate each node ram data
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#generate each node ram data
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for (my $y=0; $y<$yn; $y=$y+1){
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for (my $endp=0; $endp<$NE; $endp++){
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for (my $x=0; $x<$xn; $x=$x+1){
|
#print "generate_synthetic_traffic_ram($emulate,$endp,$sample,$ratio_in, $file,$rnd);\n";
|
my $num=($y * $xn) + $x;
|
generate_synthetic_traffic_ram($emulate,$endp,$sample,$ratio_in, $file,$rnd);
|
generate_synthetic_traffic_ram($emulate,$x,$y,$sample,$ratio_in, $file,$rnd,$num);
|
|
|
|
}
|
|
}
|
}
|
close($file);
|
close($file);
|
return 1;
|
return 1;
|
|
|
}
|
}
|
|
|
sub programe_pck_gens{
|
sub programe_pck_gens{
|
my ($emulate, $sample,$ratio_in,$info,$jtag_intfc)= @_;
|
my ($emulate, $sample,$ratio_in,$info,$jtag_intfc)= @_;
|
|
|
if(!generate_emulator_ram($emulate, $sample,$ratio_in,$info)){
|
if(!generate_emulator_ram($emulate, $sample,$ratio_in,$info)){
|
add_colored_info($info, "Error in generate_emulator_ram function\n",'red');
|
add_colored_info($info, "Error in generate_emulator_ram function\n",'red');
|
return 0;
|
return 0;
|
|
|
}
|
}
|
|
|
#reset the FPGA board
|
#reset the FPGA board
|
#run_cmd_in_back_ground("quartus_stp -t ./lib/tcl/mem.tcl reset");
|
#run_cmd_in_back_ground("quartus_stp -t ./lib/tcl/mem.tcl reset");
|
|
#print "#reset both noc and jtag\n";
|
return 0 if(run_cmd_update_info(reset_cmd(1,1,$jtag_intfc),$info)); #reset both noc and jtag
|
return 0 if(run_cmd_update_info(reset_cmd(1,1,$jtag_intfc),$info)); #reset both noc and jtag
|
|
#print "#enable jtag keep noc in reset\n";
|
return 0 if(run_cmd_update_info(reset_cmd(0,1,$jtag_intfc),$info)); #enable jtag keep noc in reset
|
return 0 if(run_cmd_update_info(reset_cmd(0,1,$jtag_intfc),$info)); #enable jtag keep noc in reset
|
|
#print "#set time limit\n";
|
#set time limit
|
#set time limit
|
my $time_limit = $emulate->object_get_attribute($sample,"SIM_CLOCK_LIMIT");
|
my $time_limit = $emulate->object_get_attribute($sample,"SIM_CLOCK_LIMIT");
|
return 0 if(run_cmd_update_info(set_time_limit_cmd($time_limit,$jtag_intfc),$info));
|
return 0 if(run_cmd_update_info(set_time_limit_cmd($time_limit,$jtag_intfc),$info));
|
|
|
|
|
|
|
#programe packet generators rams
|
#programe packet generators rams
|
my $cmd= "sh $jtag_intfc \"-n ".JTAG_RAM_INDEX." -w 8 -i $ENV{'PRONOC_WORK'}/emulate/emulate_ram.bin -c\" ";
|
my $cmd= "sh $jtag_intfc \"-n ".JTAG_RAM_INDEX." -w 8 -i $ENV{'PRONOC_WORK'}/emulate/emulate_ram.bin -c\" ";
|
#my ($result,$exit) = run_cmd_in_back_ground_get_stdout($cmd);
|
#my ($result,$exit) = run_cmd_in_back_ground_get_stdout($cmd);
|
|
|
return 0 if(run_cmd_update_info ($cmd,$info));
|
return 0 if(run_cmd_update_info ($cmd,$info));
|
#print $result;
|
#print $result;
|
|
|
return 0 if(run_cmd_update_info(reset_cmd(1,1,$jtag_intfc),$info)); #reset both
|
return 0 if(run_cmd_update_info(reset_cmd(1,1,$jtag_intfc),$info)); #reset both
|
return 0 if(run_cmd_update_info(reset_cmd(0,0,$jtag_intfc),$info)); #enable both
|
return 0 if(run_cmd_update_info(reset_cmd(0,0,$jtag_intfc),$info)); #enable both
|
#run_cmd_in_back_ground("quartus_stp -t ./lib/tcl/mem.tcl unreset");
|
#run_cmd_in_back_ground("quartus_stp -t ./lib/tcl/mem.tcl unreset");
|
#add_info($info,"$r\n");
|
#add_info($info,"$r\n");
|
|
|
return 1;
|
return 1;
|
|
|
}
|
}
|
|
|
|
|
sub read_jtag_memory{
|
sub read_jtag_memory{
|
my ($addr,$jtag_intfc,$info)=@_;
|
my ($addr,$jtag_intfc,$info)=@_;
|
my $cmd= "sh $jtag_intfc \" -n ".JTAG_STATIC_INDEX." -w 8 -d I:".UPDATE_WB_ADDR.",D:64:$addr,I:5,R:64:$addr,I:0\"";
|
my $cmd= "sh $jtag_intfc \" -n ".JTAG_STATIC_INDEX." -w 8 -d I:".UPDATE_WB_ADDR.",D:64:$addr,I:5,R:64:$addr,I:0\"";
|
#print "$cmd\n";
|
#print "$cmd\n";
|
my ($result,$exit,$stderr) = run_cmd_in_back_ground_get_stdout($cmd);
|
my ($result,$exit,$stderr) = run_cmd_in_back_ground_get_stdout($cmd);
|
if($exit){
|
if($exit){
|
add_colored_info($info, "$result\n",'red') if(defined $result);
|
add_colored_info($info, "$result\n",'red') if(defined $result);
|
add_colored_info($info, "$stderr\n",'red') if(defined $stderr);
|
add_colored_info($info, "$stderr\n",'red') if(defined $stderr);
|
return undef;
|
return undef;
|
|
|
}
|
}
|
#print "$result\n";
|
#print "$result\n";
|
|
|
my @q =split (/###read data#/,$result);
|
my @q =split (/###read data#/,$result);
|
my $d=$q[1];
|
my $d=$q[1];
|
my $s= substr $d,2;
|
my $s= substr $d,2;
|
#print "$s\n";
|
#print "$s\n";
|
return hex($s);
|
return hex($s);
|
}
|
}
|
|
|
|
|
sub read_statistic_mem {
|
sub read_statistic_mem {
|
my($yn,$xn,$jtag_intfc,$info)=@_;
|
my($NE,$jtag_intfc,$info)=@_;
|
my %results;
|
my %results;
|
my $sum_of_latency=0;
|
my $sum_of_latency=0;
|
my $sum_of_pck=0;
|
my $sum_of_pck=0;
|
my $total_router=0;
|
my $total_router=0;
|
for (my $y=0; $y<$yn; $y=$y+1){
|
for (my $num=0; $num<$NE; $num++){
|
for (my $x=0; $x<$xn; $x=$x+1){
|
|
my $num=($y * $xn) + $x;
|
|
my $read_addr=($num * STATISTIC_NUM);
|
my $read_addr=($num * STATISTIC_NUM);
|
|
|
my $sent_pck_addr= sprintf ("%X",$read_addr);
|
my $sent_pck_addr= sprintf ("%X",$read_addr);
|
my $got_pck_addr = sprintf ("%X",$read_addr+1);
|
my $got_pck_addr = sprintf ("%X",$read_addr+1);
|
my $latency_addr = sprintf ("%X",$read_addr+2);
|
my $latency_addr = sprintf ("%X",$read_addr+2);
|
my $worst_latency_addr = sprintf ("%X",$read_addr+3);
|
my $worst_latency_addr = sprintf ("%X",$read_addr+3);
|
|
|
$results{$num}{sent_pck}=read_jtag_memory($sent_pck_addr,$jtag_intfc,$info);
|
$results{$num}{sent_pck}=read_jtag_memory($sent_pck_addr,$jtag_intfc,$info);
|
$results{$num}{got_pck}=read_jtag_memory($got_pck_addr,$jtag_intfc,$info);
|
$results{$num}{got_pck}=read_jtag_memory($got_pck_addr,$jtag_intfc,$info);
|
$results{$num}{latency}=read_jtag_memory($latency_addr,$jtag_intfc,$info);
|
$results{$num}{latency}=read_jtag_memory($latency_addr,$jtag_intfc,$info);
|
$results{$num}{worst_latency}=read_jtag_memory($worst_latency_addr,$jtag_intfc,$info);
|
$results{$num}{worst_latency}=read_jtag_memory($worst_latency_addr,$jtag_intfc,$info);
|
add_info($info, "$num, ");
|
add_info($info, "$num, ");
|
|
|
$sum_of_latency+=$results{$num}{latency};
|
$sum_of_latency+=$results{$num}{latency};
|
$sum_of_pck+=$results{$num}{got_pck};
|
$sum_of_pck+=$results{$num}{got_pck};
|
$total_router++ if($results{$num}{sent_pck}>0);
|
$total_router++ if($results{$num}{sent_pck}>0);
|
#$i=$i+2;
|
#$i=$i+2;
|
}}
|
}
|
|
|
|
|
|
|
add_info($info, "\n");
|
add_info($info, "\n");
|
|
|
return (\%results,$sum_of_latency,$sum_of_pck,$total_router);
|
return (\%results,$sum_of_latency,$sum_of_pck,$total_router);
|
|
|
}
|
}
|
|
|
|
|
sub read_statistic_mem_fast {
|
sub read_statistic_mem_fast {
|
my($yn,$xn,$jtag_intfc,$info)=@_;
|
my($NE,$jtag_intfc,$info)=@_;
|
my %results;
|
my %results;
|
my $sum_of_latency=0;
|
my $sum_of_latency=0;
|
my $sum_of_pck=0;
|
my $sum_of_pck=0;
|
my $total_router=0;
|
my $total_router=0;
|
#read static memory
|
#read static memory
|
my $end= STATISTIC_NUM * 8 *$yn * $xn;
|
my $end= STATISTIC_NUM * 8 *$NE;
|
$end=sprintf ("%X",$end);
|
$end=sprintf ("%X",$end);
|
my $cmd= "sh $jtag_intfc \"-n ".JTAG_STATIC_INDEX." -w 8 -r -s 0 -e $end\"";
|
my $cmd= "sh $jtag_intfc \"-n ".JTAG_STATIC_INDEX." -w 8 -r -s 0 -e $end\"";
|
#print "$cmd\n";
|
#print "$cmd\n";
|
my ($result,$exit,$stderr) = run_cmd_in_back_ground_get_stdout($cmd);
|
my ($result,$exit,$stderr) = run_cmd_in_back_ground_get_stdout($cmd);
|
if($exit){
|
if($exit){
|
add_colored_info($info, "$result\n",'red') if(defined $result);
|
add_colored_info($info, "$result\n",'red') if(defined $result);
|
add_colored_info($info, "$stderr\n",'red') if(defined $stderr);
|
add_colored_info($info, "$stderr\n",'red') if(defined $stderr);
|
return undef;
|
return undef;
|
|
|
}
|
}
|
#print "$result\n";
|
#print "$result\n";
|
my @q =split (/###read data#\n/,$result);
|
my @q =split (/###read data#\n/,$result);
|
my @data= split (/\n/,$q[1]);
|
my @data= split (/\n/,$q[1]);
|
#print "$data[0]\n";
|
#print "$data[0]\n";
|
|
|
|
|
|
|
|
|
for (my $y=0; $y<$yn; $y=$y+1){
|
for (my $endp=0; $endp<$NE; $endp=$endp+1){
|
for (my $x=0; $x<$xn; $x=$x+1){
|
|
my $num=($y * $xn) + $x;
|
my $num=$endp;
|
my $read_addr=($num * STATISTIC_NUM);
|
my $read_addr=($num * STATISTIC_NUM);
|
|
|
my $sent_pck_addr= $read_addr;
|
my $sent_pck_addr= $read_addr;
|
my $got_pck_addr = $read_addr+1;
|
my $got_pck_addr = $read_addr+1;
|
my $latency_addr = $read_addr+2;
|
my $latency_addr = $read_addr+2;
|
my $worst_latency_addr = $read_addr+3;
|
my $worst_latency_addr = $read_addr+3;
|
|
|
$results{$num}{sent_pck}=hex($data[$sent_pck_addr]);
|
$results{$num}{sent_pck}=hex($data[$sent_pck_addr]);
|
$results{$num}{got_pck}=hex($data[$got_pck_addr]);
|
$results{$num}{got_pck}=hex($data[$got_pck_addr]);
|
$results{$num}{latency}=hex($data[$latency_addr]);
|
$results{$num}{latency}=hex($data[$latency_addr]);
|
$results{$num}{worst_latency}=hex($data[$worst_latency_addr]);
|
$results{$num}{worst_latency}=hex($data[$worst_latency_addr]);
|
#add_info($info, "$num, ");
|
#add_info($info, "$num, ");
|
|
#print "$results{$num}{sent_pck}=hex($data[$sent_pck_addr]);\n";
|
|
|
$sum_of_latency+=$results{$num}{latency};
|
$sum_of_latency+=$results{$num}{latency};
|
$sum_of_pck+=$results{$num}{got_pck};
|
$sum_of_pck+=$results{$num}{got_pck};
|
$total_router++ if($results{$num}{sent_pck}>0);
|
$total_router++ if($results{$num}{sent_pck}>0);
|
#$i=$i+2;
|
#$i=$i+2;
|
}}
|
}
|
|
|
|
|
|
|
#add_info($info, "\n");
|
#add_info($info, "\n");
|
|
|
return (\%results,$sum_of_latency,$sum_of_pck,$total_router);
|
return (\%results,$sum_of_latency,$sum_of_pck,$total_router);
|
|
|
}
|
}
|
|
|
|
|
sub read_pack_gen{
|
sub read_pack_gen{
|
my ($emulate,$sample,$info,$jtag_intfc,$ratio_in)= @_;
|
my ($emulate,$sample,$info,$jtag_intfc,$ratio_in)= @_;
|
my $ref=$emulate->object_get_attribute($sample,"noc_info");
|
my $ref=$emulate->object_get_attribute($sample,"noc_info");
|
my %noc_info= %$ref;
|
my ($topology, $T1, $T2, $T3, $V, $Fpay) = get_sample_emulation_param($emulate,$sample);
|
my $xn=$noc_info{NX};
|
my ($NE, $NR, $RAw, $EAw, $Fw) = get_topology_info_sub ($topology, $T1, $T2, $T3, $V, $Fpay);
|
my $yn=$noc_info{NY};
|
|
#wait for done
|
#wait for done
|
add_info($info, "wait for done\n");
|
add_info($info, "wait for done\n");
|
my $done=0;
|
my $done=0;
|
my $counter=0;
|
my $counter=0;
|
while ($done ==0){
|
while ($done ==0){
|
usleep(300000);
|
usleep(300000);
|
#my ($result,$exit) = run_cmd_in_back_ground_get_stdout("quartus_stp -t ./lib/tcl/read.tcl done");
|
#my ($result,$exit) = run_cmd_in_back_ground_get_stdout("quartus_stp -t ./lib/tcl/read.tcl done");
|
my ($result,$exit) = run_cmd_in_back_ground_get_stdout("sh $jtag_intfc".READ_DONE_CMD);
|
my ($result,$exit) = run_cmd_in_back_ground_get_stdout("sh $jtag_intfc".READ_DONE_CMD);
|
if($exit != 0 ){
|
if($exit != 0 ){
|
add_colored_info($info,$result,'red');
|
add_colored_info($info,$result,'red');
|
return undef;
|
return undef;
|
}
|
}
|
my @q =split (/###read data#/,$result);
|
my @q =split (/###read data#/,$result);
|
#print "\$result=$result\n";
|
#print "\$result=$result\n";
|
|
|
|
|
$done=($q[1] eq "0x0")? 0 : 1;
|
$done=($q[1] eq "0x0")? 0 : 1;
|
#print "\$q[1]=$q[1] done=$done\n";
|
#print "\$q[1]=$q[1] done=$done\n";
|
|
|
$counter++;
|
$counter++;
|
if($counter == 15){ #
|
if($counter == 15){ #
|
add_info($info,"Done is not asserted. I reset the board and try again\n");
|
add_info($info,"Done is not asserted. I reset the board and try again\n");
|
return if(run_cmd_update_info (reset_cmd(1,1,$jtag_intfc),$info));
|
return if(run_cmd_update_info (reset_cmd(1,1,$jtag_intfc),$info));
|
#run_cmd_in_back_ground("quartus_stp -t ./lib/tcl/mem.tcl reset");
|
#run_cmd_in_back_ground("quartus_stp -t ./lib/tcl/mem.tcl reset");
|
usleep(300000);
|
usleep(300000);
|
return if(run_cmd_update_info (reset_cmd(0,0,$jtag_intfc),$info));
|
return if(run_cmd_update_info (reset_cmd(0,0,$jtag_intfc),$info));
|
#run_cmd_in_back_ground("quartus_stp -t ./lib/tcl/mem.tcl unreset");
|
#run_cmd_in_back_ground("quartus_stp -t ./lib/tcl/mem.tcl unreset");
|
}
|
}
|
if($counter>30){
|
if($counter>30){
|
#something is wrong
|
#something is wrong
|
add_colored_info($info,"Done is not asserted again. I am going to ignore this test case\n",'green');
|
add_colored_info($info,"Done is not asserted again. I am going to ignore this test case\n",'green');
|
return undef;
|
return undef;
|
}
|
}
|
}
|
}
|
|
|
add_info($info,"Done is asserted\nStart reading statistic data from cores:\n\t");
|
add_info($info,"Done is asserted\nStart reading statistic data from cores:\n\t");
|
#print" Done is asserted\n";
|
#print" Done is asserted\n";
|
#my $i=0;
|
#my $i=0;
|
#my ($results_ref,$sum_of_latency,$sum_of_pck,$total_router)= read_statistic_mem($yn,$xn,$jtag_intfc,$info);
|
#my ($results_ref,$sum_of_latency,$sum_of_pck,$total_router)= read_statistic_mem($NE,$jtag_intfc,$info);
|
my ($results_ref,$sum_of_latency,$sum_of_pck,$total_router)= read_statistic_mem_fast($yn,$xn,$jtag_intfc,$info);
|
my ($results_ref,$sum_of_latency,$sum_of_pck,$total_router)= read_statistic_mem_fast($NE,$jtag_intfc,$info);
|
my %results=%$results_ref;
|
my %results=%$results_ref;
|
|
|
|
|
foreach my $p (sort keys %results){
|
foreach my $p (sort keys %results){
|
update_result($emulate,$sample,"packet_rsvd_result",$ratio_in,$p,$results{$p}{got_pck} );
|
update_result($emulate,$sample,"packet_rsvd_result",$ratio_in,$p,$results{$p}{got_pck} );
|
update_result($emulate,$sample,"packet_sent_result",$ratio_in,$p,$results{$p}{sent_pck});
|
update_result($emulate,$sample,"packet_sent_result",$ratio_in,$p,$results{$p}{sent_pck});
|
update_result($emulate,$sample,"worst_delay_rsvd_result",$ratio_in,$p,$results{$p}{worst_latency});
|
update_result($emulate,$sample,"worst_delay_rsvd_result",$ratio_in,$p,$results{$p}{worst_latency});
|
#print "$p : \n latency: $results{$p}{latency}\n";
|
#print "$p : \n latency: $results{$p}{latency}\n";
|
#print "got_pck : $results{$p}{got_pck}\n";
|
#print "got_pck : $results{$p}{got_pck}\n";
|
#print "sent_pck:$results{$p}{sent_pck}\n\n";
|
#print "sent_pck:$results{$p}{sent_pck}\n\n";
|
#print "worst_delay:$results{$p}{worst_latency}\n\n";
|
#print "worst_delay:$results{$p}{worst_latency}\n\n";
|
|
|
}
|
}
|
#print "total active router=$total_router\n";
|
#print "total active router=$total_router\n";
|
#read clock counter
|
#read clock counter
|
my $clk_counter;
|
my $clk_counter;
|
my ($result,$exit) = run_cmd_in_back_ground_get_stdout("sh $jtag_intfc".READ_COUNTER_CMD);
|
my ($result,$exit) = run_cmd_in_back_ground_get_stdout("sh $jtag_intfc".READ_COUNTER_CMD);
|
if($exit != 0 ){
|
if($exit != 0 ){
|
add_colored_info($info,$result,'red');
|
add_colored_info($info,$result,'red');
|
|
|
}else {
|
}else {
|
|
|
my @q =split (/###read data#/,$result);
|
my @q =split (/###read data#/,$result);
|
my $d=$q[1];
|
my $d=$q[1];
|
my $s= substr $d,2;
|
my $s= substr $d,2;
|
$clk_counter= hex($s);
|
$clk_counter= hex($s);
|
|
|
}
|
}
|
|
|
my $avg_latency= ($sum_of_pck>0)? $sum_of_latency/$sum_of_pck : 0;
|
my $avg_latency= ($sum_of_pck>0)? $sum_of_latency/$sum_of_pck : 0;
|
my $packet_size=$emulate->object_get_attribute($sample,"PCK_SIZE");
|
my $packet_size=$emulate->object_get_attribute($sample,"PCK_SIZE");
|
my $avg_throughput= ($sum_of_pck>0 && $total_router>0 && $clk_counter>0 )? (($sum_of_pck * $packet_size *100)/ $total_router )/$clk_counter:0;
|
my $avg_throughput= ($sum_of_pck>0 && $total_router>0 && $clk_counter>0 )? (($sum_of_pck * $packet_size *100)/ $total_router )/$clk_counter:0;
|
#print "($sum_of_pck * $packet_size *100)/ $total_router )/$clk_counter = $avg_throughput)";
|
#print "($sum_of_pck * $packet_size *100)/ $total_router )/$clk_counter = $avg_throughput)";
|
|
|
#print "$avg = $sum_of_latency/$sum_of_pck ";
|
#print "$avg = $sum_of_latency/$sum_of_pck ";
|
$avg_latency= sprintf("%.1f", $avg_latency);
|
$avg_latency= sprintf("%.1f", $avg_latency);
|
|
|
update_result ($emulate,$sample,"latency_result",$ratio_in,$avg_latency);
|
update_result ($emulate,$sample,"latency_result",$ratio_in,$avg_latency);
|
update_result ($emulate,$sample,"throughput_result",$ratio_in,$avg_throughput);
|
update_result ($emulate,$sample,"throughput_result",$ratio_in,$avg_throughput);
|
update_result ($emulate,$sample,"exe_time_result",$ratio_in,$clk_counter);
|
update_result ($emulate,$sample,"exe_time_result",$ratio_in,$clk_counter);
|
|
|
|
|
return 1;
|
return 1;
|
}
|
}
|
|
|
|
|