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Diffstat (limited to 'tools/perform/gen_report.pl')
| -rwxr-xr-x | tools/perform/gen_report.pl | 527 |
1 files changed, 0 insertions, 527 deletions
diff --git a/tools/perform/gen_report.pl b/tools/perform/gen_report.pl deleted file mode 100755 index 285f5d7..0000000 --- a/tools/perform/gen_report.pl +++ /dev/null @@ -1,527 +0,0 @@ -#!/usr/bin/perl -# -# Copyright by The HDF Group. -# Copyright by the Board of Trustees of the University of Illinois. -# All rights reserved. -# -# This file is part of HDF5. The full HDF5 copyright notice, including -# terms governing use, modification, and redistribution, is contained in -# the files COPYING and Copyright.html. COPYING can be found at the root -# of the source code distribution tree; Copyright.html can be found at the -# root level of an installed copy of the electronic HDF5 document set and -# is linked from the top-level documents page. It can also be found at -# http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have -# access to either file, you may request a copy from help@hdfgroup.org. -# - -# -# Generates an ASCII and Excel-importable file of tables representing -# the output of running the "pio_perf" command. The name of the input -# file is important. The name should reflect the command-line options -# used in the performance test. It needs to be of the form: -# -# f#[GMK].i#.d#.X#[GMK].x#[GMK]..* -# -# For example: -# -# PIO_output_f1G.i2.d1.X2M.x128K.frost -# -# for a 1GB sized file ran for 2 iterations with 1 dataset from xfer -# buffer size of 128KB to 2MB on the frost machine. -# -# The output file will have the same name as the input, but will append -# ".ascii" for the ASCII file and ".excel" for the Excel-importable -# file. -# -# The data structure used in this program looks like: -# -# %results = { -# num_proc => ( -# %xfer_size => ( -# %posix = { -# 'write-only' => ##, -# 'write-close' => ##, -# 'read-only' => ##, -# 'read-close' => ## -# }, -# %mpio = { -# 'write-only' => ##, -# 'write-close' => ##, -# 'read-only' => ##, -# 'read-close' => ## -# }, -# %phdf = { -# 'write-only' => ##, -# 'write-close' => ##, -# 'read-only' => ##, -# 'read-close' => ## -# } -# ) -# ) -# } - -use IO::Handle; -use Getopt::Long; -use List::Util qw[max]; - -if ($#ARGV == -1) { - usage(); -} - -my ($ascii_output, $excel_output); - -GetOptions("data_type=s"=>\$data_type, - "buffer_size=i"=>\$transfer_buffer_size, - "procs=i"=>\$num_procs_graph, - "help!"=>\$help, - "throughput=s"=>\$throughput_type, - "io_type=i"=>\$io_type, - "3d!"=>\$plot_3d); - -usage() if $help or !@ARGV; - -$throughput_type = "average" if !$throughput_type; -$io_type = 7 if !$io_type; - -foreach my $arg (@ARGV) { - - if ($arg !~ /^-/) { - $arg =~ /f([0-9]+.)\.i([0-9]+)\.d([0-9]+)\.X([0-9]+.)\.x([0-9]+.)\.(.*)/; - - my $output = $arg . $1 . ".X" . $4 . ".x" . $5 . "." . $6; - - $ascii_output = $output . ".ascii"; - $excel_output = $output . ".excel"; - - open(INPUT, "<$arg") or die "error: cannot open file $arg: $!\n"; - open(ASCII_OUTPUT, ">$ascii_output") or - die "error: cannot open file $ascii_output: $!\n"; - open(EXCEL_OUTPUT, ">$excel_output") or - die "error: cannot open file $excel_output: $!\n"; - } - else - { - die "error: unrecognized option: $arg\n"; - } -} - -my %results; -my $num_procs = 0; -my ($xfer_size, $avg_type, $type); - -my $posix = 0, $mpio = 1, $phdf5 = 2; - -##"==== End of Parameters ====" - -while (<INPUT>) { - if (/Number of processors = ([0-9]+)/) { - $num_procs = $1; - } - - if (/Transfer Buffer Size: ([0-9]+)/) { - $xfer_size = $1; - } - - $type = $posix if /POSIX/; - $type = $mpio if /MPIO/; - $type = $phdf5 if /PHDF5/; - - if (/Write Open/) { - $avg_type = "write-close"; - } elsif (/Write/) { - $avg_type = "write-only"; - } elsif (/Read Open/) { - $avg_type = "read-close"; - } elsif (/Read/) { - $avg_type = "read-only"; - } - - if($throughput_type eq "max") - { - if (/Maximum Throughput: ( {0,2}[0-9]+\.[0-9]{2}) MB\/s/) { - $results{$num_procs}{$xfer_size}[$type]{$avg_type} = $1; - } - } - elsif($throughput_type eq "min") - { - if (/Minimum Throughput: ( {0,2}[0-9]+\.[0-9]{2}) MB\/s/) { - $results{$num_procs}{$xfer_size}[$type]{$avg_type} = $1; - } - } - elsif($throughput_type eq "average") - { - if (/Average Throughput: ( {0,2}[0-9]+\.[0-9]{2}) MB\/s/) { - $results{$num_procs}{$xfer_size}[$type]{$avg_type} = $1; - } - } -} - -sub usage { - print "Usage: gen_reporl.pl [options] FILE - options are:\n - -data_type \"data_type\" plots the results for \"write-only\",\"read-only\", \"write-close\", or \"read-close\" (default is write-only)\n - -buffer_size \"buffer_size\" plots data from this buffer size (in kilobytes, default is 128)\n - -procs \"num_procs\" plots data from the run with num_procs processors (default is the highest number of processors for which there is data).\n - -throughput \"throughput_type\" plots either the \"max\", \"min\", or \"average\" throughput (default is average)\n - -io_type \"io_type\" where \"io_type\" is the bitwise or of the io_type for which plotting is desired (1 for POSIX, 2 for MPIO, 4 for PHDF5 (default is 7 (all))\n - -3d if present, does a 3d plot in addition to the normal ones\n"; - - exit 1; -} - -sub create_excel_output_header { - my $output_header; - my $kb = 1024; - my $mb = $kb * $kb; - - foreach my $key (sort { $a <=> $b } keys(%{$results{$num_procs}})) { - if ($key < $mb) { - $key /= $kb; - $output_header .= "\t". $key . "K"; - } else { - $key /= $mb; - $output_header .= "\t". $key . "M"; - } - } - - $output_header; -} - -sub create_excel_output_string { - my ($t) = @_; - my $output_content = ""; - - foreach my $procs (sort { $b <=> $a } keys(%results)) { - $output_content .= "\n$procs Procs"; - $output_content .= "\n" . create_excel_output_header; - $output_content .= "\n POSIX"; - - foreach my $xfer (sort { $a <=> $b } keys(%{$results{$procs}})) { - $output_content .= "\t$results{$procs}{$xfer}[0]{$t}"; - } - - $output_content .= "\n MPIO"; - - foreach my $xfer (sort { $a <=> $b } keys(%{$results{$procs}})) { - $output_content .= "\t$results{$procs}{$xfer}[1]{$t}"; - } - - $output_content .= "\n PHDF5"; - - foreach my $xfer (sort { $a <=> $b } keys(%{$results{$procs}})) { - $output_content .= "\t$results{$procs}{$xfer}[2]{$t}"; - } - - $output_content .= "\n"; - } - - $output_content; -} - -sub is_defined { - my ($t) = @_; - my $def = 1; - - foreach my $procs (sort { $b <=> $a } keys(%results)) { - foreach my $xfer (sort { $a <=> $b } keys(%{$results{$procs}})) { - if (!defined($results{$procs}{$xfer}[0]{$t})) { - $def = 0; - } - } - - foreach my $xfer (sort { $a <=> $b } keys(%{$results{$procs}})) { - if (!defined($results{$procs}{$xfer}[0]{$t})) { - $def = 0; - } - } - - foreach my $xfer (sort { $a <=> $b } keys(%{$results{$procs}})) { - if (!defined($results{$procs}{$xfer}[0]{$t})) { - $def = 0; - } - } - } - - $def; -} - -sub write_excel_file { - print EXCEL_OUTPUT "\nWrite-Only\n"; - print EXCEL_OUTPUT create_excel_output_string("write-only"); - print EXCEL_OUTPUT "\nWrite-Close\n"; - print EXCEL_OUTPUT create_excel_output_string("write-close"); - - if (is_defined("read-only")) { - print EXCEL_OUTPUT "\nRead-Only\n"; - print EXCEL_OUTPUT create_excel_output_string("read-only"); - print EXCEL_OUTPUT "\nRead-Close\n"; - print EXCEL_OUTPUT create_excel_output_string("read-close"); - } -} - -sub create_ascii_output_header { - my $output_header = " " x 12 . "|"; - my $kb = 1024; - my $mb = $kb * $kb; - - foreach my $key (sort { $a <=> $b } keys(%{$results{$num_procs}})) { - if ($key < $mb) { - $key /= $kb; - $output_header = sprintf("$output_header %-4s |", $key . "K"); - } else { - $key /= $mb; - $output_header = sprintf("$output_header %-4s |", $key . "M"); - } - } - - $output_header; -} - -sub create_ascii_output_string { - my ($t) = @_; - my $output_content = ""; - my $output_header = create_ascii_output_header; - - foreach my $procs (sort { $b <=> $a } keys(%results)) { - $output_content .= "\n$procs Procs"; - $output_content .= "\n$output_header\n"; - $output_content .= "-" x length($output_header); - $output_content .= "\n POSIX |"; - - foreach my $xfer (sort { $a <=> $b } keys(%{$results{$procs}})) { - $output_content = sprintf("$output_content %-6s |", - $results{$procs}{$xfer}[0]{$t}); - } - - $output_content .= "\n "; - $output_content .= "-" x (length($output_header) - 4); - $output_content .= "\n MPI/IO |"; - - foreach my $xfer (sort { $a <=> $b } keys(%{$results{$procs}})) { - $output_content = sprintf("$output_content %-6s |", - $results{$procs}{$xfer}[1]{$t}); - } - - $output_content .= "\n "; - $output_content .= "-" x (length($output_header) - 4); - $output_content .= "\n PHDF5 |"; - - foreach my $xfer (sort { $a <=> $b } keys(%{$results{$procs}})) { - $output_content = sprintf("$output_content %-6s |", - $results{$procs}{$xfer}[2]{$t}); - } - - $output_content .= "\n"; - $output_content .= "=" x length($output_header); - $output_content .= "\n"; - } - - $output_content; -} - -sub write_ascii_file { - print ASCII_OUTPUT "\nWrite-Only"; - print ASCII_OUTPUT "\n----------\n"; - print ASCII_OUTPUT create_ascii_output_string("write-only"); - print ASCII_OUTPUT "\n\nWrite-Close"; - print ASCII_OUTPUT "\n-----------\n"; - print ASCII_OUTPUT create_ascii_output_string("write-close"); - - if (is_defined("read-only")) { - print ASCII_OUTPUT "\n\nRead-Only"; - print ASCII_OUTPUT "\n---------\n"; - print ASCII_OUTPUT create_ascii_output_string("read-only"); - print ASCII_OUTPUT "\n\nRead-Close"; - print ASCII_OUTPUT "\n----------\n"; - print ASCII_OUTPUT create_ascii_output_string("read-close"); - } -} - -sub draw_plot -{ - my($p_3d) = @_; - - if($p_3d) - { - $counter = 3; - print GNUPLOT_PIPE "splot "; - } - else - { - $counter = 2; - print GNUPLOT_PIPE "plot "; - } - - if($io_type & 1) { - print GNUPLOT_PIPE " \"gnuplot.data\" using 1:"; - - if($p_3d) { print GNUPLOT_PIPE "2:"; } - - print GNUPLOT_PIPE $counter . " title 'POSIX' with linespoints"; - $counter = $counter + 1; - } - if($io_type & 2) { - if($io_type & 1) { print GNUPLOT_PIPE ", "; } - print GNUPLOT_PIPE "\"gnuplot.data\" using 1:"; - - if($p_3d) { print GNUPLOT_PIPE "2:"; } - - print GNUPLOT_PIPE $counter . " title 'MPIO' with linespoints"; - $counter = $counter + 1; - if($io_type & 4) { print GNUPLOT_PIPE ", ";} - } - if($io_type & 4) { - print GNUPLOT_PIPE " \"gnuplot.data\" using 1:"; - - if($p_3d) { print GNUPLOT_PIPE "2:"; } - - print GNUPLOT_PIPE $counter . " title 'PHDF5' with linespoints"; - - } - print GNUPLOT_PIPE "\n"; -} - - -sub plot_default_graph1 { - open(GNUPLOT_DATA_OUTPUT, ">gnuplot.data") or - die "error: cannot open file gnuplot.data: $!\n"; - - $transfer_buffer_size = 128 if !$transfer_buffer_size; - $data_type = "write-only" if !$data_type; - - #set up the plot - print GNUPLOT_PIPE "set term x11 1\n"; - print GNUPLOT_PIPE "set xlabel \"Number of Processors\"\n"; - print GNUPLOT_PIPE "set title \"" . $data_type . " Performance (Speed vs. Num. Procs)\"\n"; - print GNUPLOT_PIPE "set ylabel \"Bandwdith (MB/s)\"\n"; - print GNUPLOT_PIPE "set label 1 \"Transfer buffer size: " . $transfer_buffer_size . "K\" at graph 0.7, graph 0.7 left \n"; - -#the next line attempts to hack gnuplot to get around it's inability to linearly scale, but logarithmically label an axis - print GNUPLOT_PIPE "set xtics (\"1\" 1, \"2\" 2, \"4\" 4, \"8\" 8, \"16\" 16, \"32\" 32, \"64\" 64, \"128\" 128, \"256\" 256, \"512\" 512, \"1024\" 1024)\n"; - - - foreach $proc (sort { $a <=> $b }( keys %results )) - { - print GNUPLOT_DATA_OUTPUT $proc . "\t"; - if($io_type & 1) { - print GNUPLOT_DATA_OUTPUT $results{$proc}{$transfer_buffer_size*1024}[0]{$data_type} . "\t"; - } - if($io_type & 2) { - print GNUPLOT_DATA_OUTPUT $results{$proc}{$transfer_buffer_size*1024}[1]{$data_type}. "\t"; - } - if($io_type & 4) { - print GNUPLOT_DATA_OUTPUT $results{$proc}{$transfer_buffer_size*1024}[2]{$data_type}; - } - print GNUPLOT_DATA_OUTPUT "\n"; - - } - - close(GNUPLOT_DATA_OUTPUT); - - draw_plot(0); - - unlink(GNUPLOT_DATA_OUTPUT); - -} - - -sub plot_default_graph2 { - open(GNUPLOT_DATA_OUTPUT, ">gnuplot.data") or - die "error: cannot open file gnuplot.data: $!\n"; - - $num_procs_graph = max(sort { $a <=> $b }( keys %results )) if !$num_procs_graph; - print "min-rpocs: " . $num_procs_graph; - $data_type = "write-only" if !$data_type; - - #set up the plot - print GNUPLOT_PIPE "set term x11 2\n"; - print GNUPLOT_PIPE "set xlabel \"Transfer Buffer Size (in bytes)\"\n"; - print GNUPLOT_PIPE "set title \"" . $data_type . " Performance (Speed vs. Transfer Buffer Size)\"\n"; - print GNUPLOT_PIPE "set ylabel \"Bandwdith (MB/s)\"\n"; - print GNUPLOT_PIPE "set label 1 \"Procs: " . $num_procs_graph . "\" at graph 0.7, graph 0.7 left \n"; - -#the next line attempts to hack gnuplot to get around it's inability to linearly scale, but logarithmically label an axis - print GNUPLOT_PIPE "set xtics (\"4K\" 4*1024, \"8K\" 8*1024, \"16K\" 16*1024, \"32K\" 32*1024, \"64K\" 64*1024, \"128K\" 128*1024, \"256K\" 256*1024, \"512K\" 512*1024, \"1M\" 1024*1024, \"2M\" 2048*1024, \"4M\" 4096*1024, \"8M\" 8192*1024, \"16M\" 16384*1024)\n"; - - foreach $xfer (sort {$a <=> $b} ( keys %{$results{$num_procs_graph}} )) - { - print GNUPLOT_DATA_OUTPUT $xfer . "\t"; - if($io_type & 1) { - print GNUPLOT_DATA_OUTPUT $results{$num_procs_graph}{$xfer}[0]{$data_type} . "\t"; - } - if($io_type & 2) { - print GNUPLOT_DATA_OUTPUT $results{$num_procs_graph}{$xfer}[1]{$data_type}. "\t"; - } - if($io_type & 4) { - print GNUPLOT_DATA_OUTPUT $results{$num_procs_graph}{$xfer}[2]{$data_type}; - } - print GNUPLOT_DATA_OUTPUT "\n"; - - } - - close(GNUPLOT_DATA_OUTPUT); - - draw_plot(0); - - unlink(GNUPLOT_DATA_OUTPUT); -} - -sub plot_3d_graph3 { - open(GNUPLOT_DATA_OUTPUT, ">gnuplot.data") or - die "error: cannot open file gnuplot.data: $!\n"; - - #set up the plot - print GNUPLOT_PIPE "set term x11 3\n"; - print GNUPLOT_PIPE "set xlabel \"Num. Processors\"\n"; - print GNUPLOT_PIPE "set title \"Write Speed v. No. Procs v. Buffer Size\"\n"; - print GNUPLOT_PIPE "set ylabel \"Buffer Size (bytes)\"\n"; - print GNUPLOT_PIPE "set zlabel \"Bandwidth (in MB/s)\"\n"; - print GNUPLOT_PIPE "set nolabel\n"; - print GNUPLOT_PIPE "set dgrid3d 30,30\n"; - print GNUPLOT_PIPE "set hidden3d\n"; - -#the next lines attempts to hack gnuplot to get around it's inability to linearly scale, but logarithmically label an axis - print GNUPLOT_PIPE "set xtics (\"1\" 1, \"2\" 2, \"4\" 4, \"8\" 8, \"16\" 16, \"32\" 32, \"64\" 64, \"128\" 128, \"256\" 256, \"512\" 512, \"1024\" 1024)\n"; - print GNUPLOT_PIPE "set ytics (\"4K\" 4*1024, \"8K\" 8*1024, \"16K\" 16*1024, \"32K\" 32*1024, \"64K\" 64*1024, \"128K\" 128*1024, \"256K\" 256*1024, \"512K\" 512*1024, \"1M\" 1024*1024, \"2M\" 2048*1024, \"4M\" 4096*1024, \"8M\" 8192*1024, \"16M\" 16384*1024)\n"; - - -#Read speed on z-axis, processors on x, buffer size on y. - - foreach $proc (sort { $a <=> $b }( keys %results )) - { - foreach $xfer (sort {$a <=> $b} ( keys %{$results{$proc}} )) - { - print GNUPLOT_DATA_OUTPUT $proc . "\t" . $xfer . "\t"; - if($io_type & 1) { - print GNUPLOT_DATA_OUTPUT $results{$proc}{$xfer}[0]{"write-only"} . "\t"; - } - if($io_type & 2) { - print GNUPLOT_DATA_OUTPUT $results{$proc}{$xfer}[1]{"write-only"}. "\t"; - } - if($io_type & 4) { - print GNUPLOT_DATA_OUTPUT $results{$proc}{$xfer}[2]{"write-only"}; - } - print GNUPLOT_DATA_OUTPUT "\n"; - - } - } - - close(GNUPLOT_DATA_OUTPUT); - - draw_plot(1); - - unlink(GNUPLOT_DATA_OUTPUT); -} - -open(GNUPLOT_PIPE, "| tee gnuplot.script | gnuplot -persist") || die "Couldn't run gnuplot: $!\n"; -GNUPLOT_PIPE->autoflush(1); - -write_excel_file; -write_ascii_file; -plot_default_graph1; -sleep 1; -plot_default_graph2; -sleep 1; - -plot_3d_graph3 if $plot_3d; -close(GNUPLOT_PIPE); |