blob: 3b1b390618e901aac44ba37e5e559f73f26e914e [file] [log] [blame]
# 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.
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 makeProcessArgs(self, **kwargs):
# set up default args for Process 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 makeProcess(self, **kwargs):
process_args = self.makeProcessArgs(**kwargs)
# figure out working directory: use m5's outdir unless
# overridden by Process'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 Process object
from m5.objects import Process
return Process(**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 in ("arm", "thumb", "aarch64"):
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,
art,
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("x86", "linux", input_set)
print("%s: %s" % (x, input_set))
pprint(x.makeProcessArgs())
print()