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|
# Copyright (c) 2006-2008 The Regents of The University of Michigan
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met: redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer;
# redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution;
# neither the name of the copyright holders nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# Authors: Nathan Binkert
import os
import sys
from os.path import basename, exists, join as joinpath, normpath
from os.path import isdir, isfile, islink
spec_dist = os.environ.get('M5_CPU2000', '/dist/m5/cpu2000')
def copyfiles(srcdir, dstdir):
from filecmp import cmp as filecmp
from shutil import copyfile
srcdir = normpath(srcdir)
dstdir = normpath(dstdir)
if not isdir(dstdir):
os.mkdir(dstdir)
for root, dirs, files in os.walk(srcdir):
root = normpath(root)
prefix = os.path.commonprefix([root, srcdir])
root = root[len(prefix):]
if root.startswith('/'):
root = root[1:]
for entry in dirs:
newdir = joinpath(dstdir, root, entry)
if not isdir(newdir):
os.mkdir(newdir)
for entry in files:
dest = normpath(joinpath(dstdir, root, entry))
src = normpath(joinpath(srcdir, root, entry))
if not isfile(dest) or not filecmp(src, dest):
copyfile(src, dest)
# some of the spec benchmarks expect to be run from one directory up.
# just create some symlinks that solve the problem
inlink = joinpath(dstdir, 'input')
outlink = joinpath(dstdir, 'output')
if not exists(inlink):
os.symlink('.', inlink)
if not exists(outlink):
os.symlink('.', outlink)
class Benchmark(object):
def __init__(self, isa, os, input_set):
if not hasattr(self.__class__, 'name'):
self.name = self.__class__.__name__
if not hasattr(self.__class__, 'binary'):
self.binary = self.name
if not hasattr(self.__class__, 'args'):
self.args = []
if not hasattr(self.__class__, 'output'):
self.output = '%s.out' % self.name
if not hasattr(self.__class__, 'simpoint'):
self.simpoint = None
try:
func = getattr(self.__class__, input_set)
except AttributeError:
raise AttributeError, \
'The benchmark %s does not have the %s input set' % \
(self.name, input_set)
executable = joinpath(spec_dist, 'binaries', isa, os, self.binary)
if not isfile(executable):
raise AttributeError, '%s not found' % executable
self.executable = executable
# root of tree for input & output data files
data_dir = joinpath(spec_dist, 'data', self.name)
# optional subtree with files shared across input sets
all_dir = joinpath(data_dir, 'all')
# dirs for input & output files for this input set
inputs_dir = joinpath(data_dir, input_set, 'input')
outputs_dir = joinpath(data_dir, input_set, 'output')
# keep around which input set was specified
self.input_set = input_set
if not isdir(inputs_dir):
raise AttributeError, '%s not found' % inputs_dir
self.inputs_dir = [ inputs_dir ]
if isdir(all_dir):
self.inputs_dir += [ joinpath(all_dir, 'input') ]
if isdir(outputs_dir):
self.outputs_dir = outputs_dir
if not hasattr(self.__class__, 'stdin'):
self.stdin = joinpath(inputs_dir, '%s.in' % self.name)
if not isfile(self.stdin):
self.stdin = None
if not hasattr(self.__class__, 'stdout'):
self.stdout = joinpath(outputs_dir, '%s.out' % self.name)
if not isfile(self.stdout):
self.stdout = None
func(self, isa, os)
def makeLiveProcessArgs(self, **kwargs):
# set up default args for LiveProcess object
process_args = {}
process_args['cmd'] = [ self.name ] + self.args
process_args['executable'] = self.executable
if self.stdin:
process_args['input'] = self.stdin
if self.stdout:
process_args['output'] = self.stdout
if self.simpoint:
process_args['simpoint'] = self.simpoint
# explicit keywords override defaults
process_args.update(kwargs)
return process_args
def makeLiveProcess(self, **kwargs):
process_args = self.makeLiveProcessArgs(**kwargs)
# figure out working directory: use m5's outdir unless
# overridden by LiveProcess's cwd param
cwd = process_args.get('cwd')
if not cwd:
from m5 import options
cwd = options.outdir
process_args['cwd'] = cwd
if not isdir(cwd):
os.makedirs(cwd)
# copy input files to working directory
for d in self.inputs_dir:
copyfiles(d, cwd)
# generate LiveProcess object
from m5.objects import LiveProcess
return LiveProcess(**process_args)
def __str__(self):
return self.name
class DefaultBenchmark(Benchmark):
def ref(self, isa, os): pass
def test(self, isa, os): pass
def train(self, isa, os): pass
class MinneDefaultBenchmark(DefaultBenchmark):
def smred(self, isa, os): pass
def mdred(self, isa, os): pass
def lgred(self, isa, os): pass
class ammp(MinneDefaultBenchmark):
name = 'ammp'
number = 188
lang = 'C'
simpoint = 108*100E6
class applu(MinneDefaultBenchmark):
name = 'applu'
number = 173
lang = 'F77'
simpoint = 2179*100E6
class apsi(MinneDefaultBenchmark):
name = 'apsi'
number = 301
lang = 'F77'
simpoint = 3408*100E6
class art(DefaultBenchmark):
name = 'art'
number = 179
lang = 'C'
def test(self, isa, os):
self.args = [ '-scanfile', 'c756hel.in',
'-trainfile1', 'a10.img',
'-stride', '2',
'-startx', '134',
'-starty', '220',
'-endx', '139',
'-endy', '225',
'-objects', '1' ]
self.output = 'test.out'
def train(self, isa, os):
self.args = [ '-scanfile', 'c756hel.in',
'-trainfile1', 'a10.img',
'-stride', '2',
'-startx', '134',
'-starty', '220',
'-endx', '184',
'-endy', '240',
'-objects', '3' ]
self.output = 'train.out'
def lgred(self, isa, os):
self.args = ['-scanfile', 'c756hel.in',
'-trainfile1', 'a10.img',
'-stride', '5',
'-startx', '134',
'-starty', '220',
'-endx', '184',
'-endy', '240',
'-objects', '1' ]
self.output = 'lgred.out'
class art110(art):
def ref(self, isa, os):
self.args = [ '-scanfile', 'c756hel.in',
'-trainfile1', 'a10.img',
'-trainfile2', 'hc.img',
'-stride', '2',
'-startx', '110',
'-starty', '200',
'-endx', '160',
'-endy', '240',
'-objects', '10' ]
self.output = 'ref.1.out'
self.simpoint = 340*100E6
class art470(art):
def ref(self, isa, os):
self.args = [ '-scanfile', 'c756hel.in',
'-trainfile1', 'a10.img',
'-trainfile2', 'hc.img',
'-stride', '2',
'-startx', '470',
'-starty', '140',
'-endx', '520',
'-endy', '180',
'-objects', '10' ]
self.output = 'ref.2.out'
self.simpoint = 365*100E6
class equake(DefaultBenchmark):
name = 'equake'
number = 183
lang = 'C'
simpoint = 812*100E6
def lgred(self, isa, os): pass
class facerec(MinneDefaultBenchmark):
name = 'facerec'
number = 187
lang = 'F'
simpoint = 375*100E6
class fma3d(MinneDefaultBenchmark):
name = 'fma3d'
number = 191
lang = 'F'
simpoint = 2541*100E6
class galgel(MinneDefaultBenchmark):
name = 'galgel'
number = 178
lang = 'F'
simpoint = 2491*100E6
class lucas(MinneDefaultBenchmark):
name = 'lucas'
number = 189
lang = 'F'
simpoint = 545*100E6
class mesa(Benchmark):
name = 'mesa'
number = 177
lang = 'C'
stdin = None
def __set_args(self, frames):
self.args = [ '-frames', frames, '-meshfile', '%s.in' % self.name,
'-ppmfile', '%s.ppm' % self.name ]
def test(self, isa, os):
self.__set_args('10')
def train(self, isa, os):
self.__set_args('500')
def ref(self, isa, os):
self.__set_args('1000')
self.simpoint = 1135*100E6
def lgred(self, isa, os):
self.__set_args('1')
class mgrid(MinneDefaultBenchmark):
name = 'mgrid'
number = 172
lang = 'F77'
simpoint = 3292*100E6
class sixtrack(DefaultBenchmark):
name = 'sixtrack'
number = 200
lang = 'F77'
simpoint = 3043*100E6
def lgred(self, isa, os): pass
class swim(MinneDefaultBenchmark):
name = 'swim'
number = 171
lang = 'F77'
simpoint = 2079*100E6
class wupwise(DefaultBenchmark):
name = 'wupwise'
number = 168
lang = 'F77'
simpoint = 3237*100E6
def lgred(self, isa, os): pass
class bzip2(DefaultBenchmark):
name = 'bzip2'
number = 256
lang = 'C'
def test(self, isa, os):
self.args = [ 'input.random' ]
def train(self, isa, os):
self.args = [ 'input.compressed' ]
class bzip2_source(bzip2):
def ref(self, isa, os):
self.simpoint = 977*100E6
self.args = [ 'input.source', '58' ]
def lgred(self, isa, os):
self.args = [ 'input.source', '1' ]
class bzip2_graphic(bzip2):
def ref(self, isa, os):
self.simpoint = 718*100E6
self.args = [ 'input.graphic', '58' ]
def lgred(self, isa, os):
self.args = [ 'input.graphic', '1' ]
class bzip2_program(bzip2):
def ref(self, isa, os):
self.simpoint = 458*100E6
self.args = [ 'input.program', '58' ]
def lgred(self, isa, os):
self.args = [ 'input.program', '1' ]
class crafty(MinneDefaultBenchmark):
name = 'crafty'
number = 186
lang = 'C'
simpoint = 774*100E6
class eon(MinneDefaultBenchmark):
name = 'eon'
number = 252
lang = 'CXX'
stdin = None
class eon_kajiya(eon):
args = [ 'chair.control.kajiya', 'chair.camera', 'chair.surfaces',
'chair.kajiya.ppm', 'ppm', 'pixels_out.kajiya']
output = 'kajiya_log.out'
class eon_cook(eon):
args = [ 'chair.control.cook', 'chair.camera', 'chair.surfaces',
'chair.cook.ppm', 'ppm', 'pixels_out.cook' ]
output = 'cook_log.out'
class eon_rushmeier(eon):
args = [ 'chair.control.rushmeier', 'chair.camera', 'chair.surfaces',
'chair.rushmeier.ppm', 'ppm', 'pixels_out.rushmeier' ]
output = 'rushmeier_log.out'
simpoint = 403*100E6
class gap(DefaultBenchmark):
name = 'gap'
number = 254
lang = 'C'
def __set_args(self, size):
self.args = [ '-l', './', '-q', '-m', size ]
def test(self, isa, os):
self.__set_args('64M')
def train(self, isa, os):
self.__set_args('128M')
def ref(self, isa, os):
self.__set_args('192M')
self.simpoint = 674*100E6
def lgred(self, isa, os):
self.__set_args('64M')
def mdred(self, isa, os):
self.__set_args('64M')
def smred(self, isa, os):
self.__set_args('64M')
class gcc(DefaultBenchmark):
name = 'gcc'
number = 176
lang = 'C'
def test(self, isa, os):
self.args = [ 'cccp.i', '-o', 'cccp.s' ]
def train(self, isa, os):
self.args = [ 'cp-decl.i', '-o', 'cp-decl.s' ]
def smred(self, isa, os):
self.args = [ 'c-iterate.i', '-o', 'c-iterate.s' ]
def mdred(self, isa, os):
self.args = [ 'rdlanal.i', '-o', 'rdlanal.s' ]
def lgred(self, isa, os):
self.args = [ 'cp-decl.i', '-o', 'cp-decl.s' ]
class gcc_166(gcc):
def ref(self, isa, os):
self.simpoint = 389*100E6
self.args = [ '166.i', '-o', '166.s' ]
class gcc_200(gcc):
def ref(self, isa, os):
self.simpoint = 736*100E6
self.args = [ '200.i', '-o', '200.s' ]
class gcc_expr(gcc):
def ref(self, isa, os):
self.simpoint = 36*100E6
self.args = [ 'expr.i', '-o', 'expr.s' ]
class gcc_integrate(gcc):
def ref(self, isa, os):
self.simpoint = 4*100E6
self.args = [ 'integrate.i', '-o', 'integrate.s' ]
class gcc_scilab(gcc):
def ref(self, isa, os):
self.simpoint = 207*100E6
self.args = [ 'scilab.i', '-o', 'scilab.s' ]
class gzip(DefaultBenchmark):
name = 'gzip'
number = 164
lang = 'C'
def test(self, isa, os):
self.args = [ 'input.compressed', '2' ]
def train(self, isa, os):
self.args = [ 'input.combined', '32' ]
class gzip_source(gzip):
def ref(self, isa, os):
self.simpoint = 334*100E6
self.args = [ 'input.source', '1' ]
def smred(self, isa, os):
self.args = [ 'input.source', '1' ]
def mdred(self, isa, os):
self.args = [ 'input.source', '1' ]
def lgred(self, isa, os):
self.args = [ 'input.source', '1' ]
class gzip_log(gzip):
def ref(self, isa, os):
self.simpoint = 265*100E6
self.args = [ 'input.log', '60' ]
def smred(self, isa, os):
self.args = [ 'input.log', '1' ]
def mdred(self, isa, os):
self.args = [ 'input.log', '1' ]
def lgred(self, isa, os):
self.args = [ 'input.log', '1' ]
class gzip_graphic(gzip):
def ref(self, isa, os):
self.simpoint = 653*100E6
self.args = [ 'input.graphic', '60' ]
def smred(self, isa, os):
self.args = [ 'input.graphic', '1' ]
def mdred(self, isa, os):
self.args = [ 'input.graphic', '1' ]
def lgred(self, isa, os):
self.args = [ 'input.graphic', '1' ]
class gzip_random(gzip):
def ref(self, isa, os):
self.simpoint = 623*100E6
self.args = [ 'input.random', '60' ]
def smred(self, isa, os):
self.args = [ 'input.random', '1' ]
def mdred(self, isa, os):
self.args = [ 'input.random', '1' ]
def lgred(self, isa, os):
self.args = [ 'input.random', '1' ]
class gzip_program(gzip):
def ref(self, isa, os):
self.simpoint = 1189*100E6
self.args = [ 'input.program', '60' ]
def smred(self, isa, os):
self.args = [ 'input.program', '1' ]
def mdred(self, isa, os):
self.args = [ 'input.program', '1' ]
def lgred(self, isa, os):
self.args = [ 'input.program', '1' ]
class mcf(MinneDefaultBenchmark):
name = 'mcf'
number = 181
lang = 'C'
args = [ 'mcf.in' ]
simpoint = 553*100E6
class parser(MinneDefaultBenchmark):
name = 'parser'
number = 197
lang = 'C'
args = [ '2.1.dict', '-batch' ]
simpoint = 1146*100E6
class perlbmk(DefaultBenchmark):
name = 'perlbmk'
number = 253
lang = 'C'
def test(self, isa, os):
self.args = [ '-I.', '-I', 'lib', 'test.pl' ]
self.stdin = 'test.in'
class perlbmk_diffmail(perlbmk):
def ref(self, isa, os):
self.simpoint = 141*100E6
self.args = [ '-I', 'lib', 'diffmail.pl', '2', '550', '15', '24',
'23', '100' ]
def train(self, isa, os):
self.args = [ '-I', 'lib', 'diffmail.pl', '2', '350', '15', '24',
'23', '150' ]
class perlbmk_scrabbl(perlbmk):
def train(self, isa, os):
self.args = [ '-I.', '-I', 'lib', 'scrabbl.pl' ]
self.stdin = 'scrabbl.in'
class perlbmk_makerand(perlbmk):
def ref(self, isa, os):
self.simpoint = 11*100E6
self.args = [ '-I', 'lib', 'makerand.pl' ]
def lgred(self, isa, os):
self.args = [ '-I.', '-I', 'lib', 'lgred.makerand.pl' ]
def mdred(self, isa, os):
self.args = [ '-I.', '-I', 'lib', 'mdred.makerand.pl' ]
def smred(self, isa, os):
self.args = [ '-I.', '-I', 'lib', 'smred.makerand.pl' ]
class perlbmk_perfect(perlbmk):
def ref(self, isa, os):
self.simpoint = 5*100E6
self.args = [ '-I', 'lib', 'perfect.pl', 'b', '3', 'm', '4' ]
def train(self, isa, os):
self.args = [ '-I', 'lib', 'perfect.pl', 'b', '3' ]
class perlbmk_splitmail1(perlbmk):
def ref(self, isa, os):
self.simpoint = 405*100E6
self.args = [ '-I', 'lib', 'splitmail.pl', '850', '5', '19',
'18', '1500' ]
class perlbmk_splitmail2(perlbmk):
def ref(self, isa, os):
self.args = [ '-I', 'lib', 'splitmail.pl', '704', '12', '26',
'16', '836' ]
class perlbmk_splitmail3(perlbmk):
def ref(self, isa, os):
self.args = [ '-I', 'lib', 'splitmail.pl', '535', '13', '25',
'24', '1091' ]
class perlbmk_splitmail4(perlbmk):
def ref(self, isa, os):
self.args = [ '-I', 'lib', 'splitmail.pl', '957', '12', '23',
'26', '1014' ]
class twolf(Benchmark):
name = 'twolf'
number = 300
lang = 'C'
stdin = None
def test(self, isa, os):
self.args = [ 'test' ]
def train(self, isa, os):
self.args = [ 'train' ]
def ref(self, isa, os):
self.simpoint = 1066*100E6
self.args = [ 'ref' ]
def smred(self, isa, os):
self.args = [ 'smred' ]
def mdred(self, isa, os):
self.args = [ 'mdred' ]
def lgred(self, isa, os):
self.args = [ 'lgred' ]
class vortex(Benchmark):
name = 'vortex'
number = 255
lang = 'C'
stdin = None
def __init__(self, isa, os, input_set):
if (isa == 'alpha' or isa == 'arm'):
self.endian = 'lendian'
elif (isa == 'sparc' or isa == 'sparc32'):
self.endian = 'bendian'
else:
raise AttributeError, "unknown ISA %s" % isa
super(vortex, self).__init__(isa, os, input_set)
def test(self, isa, os):
self.args = [ '%s.raw' % self.endian ]
self.output = 'vortex.out'
def train(self, isa, os):
self.args = [ '%s.raw' % self.endian ]
self.output = 'vortex.out'
def smred(self, isa, os):
self.args = [ '%s.raw' % self.endian ]
self.output = 'vortex.out'
def mdred(self, isa, os):
self.args = [ '%s.raw' % self.endian ]
self.output = 'vortex.out'
def lgred(self, isa, os):
self.args = [ '%s.raw' % self.endian ]
self.output = 'vortex.out'
class vortex1(vortex):
def ref(self, isa, os):
self.args = [ '%s1.raw' % self.endian ]
self.output = 'vortex1.out'
self.simpoint = 271*100E6
class vortex2(vortex):
def ref(self, isa, os):
self.simpoint = 1024*100E6
self.args = [ '%s2.raw' % self.endian ]
self.output = 'vortex2.out'
class vortex3(vortex):
def ref(self, isa, os):
self.simpoint = 564*100E6
self.args = [ '%s3.raw' % self.endian ]
self.output = 'vortex3.out'
class vpr(MinneDefaultBenchmark):
name = 'vpr'
number = 175
lang = 'C'
# not sure about vpr minnespec place.in
class vpr_place(vpr):
args = [ 'net.in', 'arch.in', 'place.out', 'dum.out', '-nodisp',
'-place_only', '-init_t', '5', '-exit_t', '0.005',
'-alpha_t', '0.9412', '-inner_num', '2' ]
output = 'place_log.out'
class vpr_route(vpr):
simpoint = 476*100E6
args = [ 'net.in', 'arch.in', 'place.in', 'route.out', '-nodisp',
'-route_only', '-route_chan_width', '15',
'-pres_fac_mult', '2', '-acc_fac', '1',
'-first_iter_pres_fac', '4', '-initial_pres_fac', '8' ]
output = 'route_log.out'
all = [ ammp, applu, apsi, art110, art470, equake, facerec, fma3d, galgel,
lucas, mesa, mgrid, sixtrack, swim, wupwise, bzip2_source,
bzip2_graphic, bzip2_program, crafty, eon_kajiya, eon_cook,
eon_rushmeier, gap, gcc_166, gcc_200, gcc_expr, gcc_integrate,
gcc_scilab, gzip_source, gzip_log, gzip_graphic, gzip_random,
gzip_program, mcf, parser, perlbmk_diffmail, perlbmk_makerand,
perlbmk_perfect, perlbmk_splitmail1, perlbmk_splitmail2,
perlbmk_splitmail3, perlbmk_splitmail4, twolf, vortex1, vortex2,
vortex3, vpr_place, vpr_route ]
__all__ = [ x.__name__ for x in all ]
if __name__ == '__main__':
from pprint import pprint
for bench in all:
for input_set in 'ref', 'test', 'train':
print 'class: %s' % bench.__name__
x = bench('alpha', 'tru64', input_set)
print '%s: %s' % (x, input_set)
pprint(x.makeLiveProcessArgs())
print
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