Minor functionality updates.

SConstruct:
    Include an option to specify the CPUs being tested.
src/cpu/SConscript:
    Checker isn't SMT right now, so don't do SMT tests with the O3CPU if we're using the checker.
src/python/m5/objects/O3CPU.py:
    Include default options.  Unfortunately FullO3Config.py is still needed because it specifies which FUPool is being used.
tests/SConscript:
    Several minor updates (sorry for one commit).  Updated the copyright and fixed some m5 style issues.  Also added the ability to specify which CPUs to run the tests on.

--HG--
extra : convert_revision : b0b801115705544ea02e572e31314f7bb8b5f0f2
This commit is contained in:
Kevin Lim 2006-07-21 15:46:12 -04:00
parent bd33d8d4ac
commit bf90e1dbde
4 changed files with 100 additions and 69 deletions

View file

@ -279,6 +279,8 @@ sticky_opts.AddOptions(
# scons 0.96.90 or later.
ListOption('CPU_MODELS', 'CPU models', 'AtomicSimpleCPU,TimingSimpleCPU',
env['ALL_CPU_LIST']),
ListOption('TEST_CPU_MODELS', 'CPU models to test if regression is being run', '',
env['ALL_CPU_LIST']),
BoolOption('ALPHA_TLASER',
'Model Alpha TurboLaser platform (vs. Tsunami)', False),
BoolOption('NO_FAST_ALLOC', 'Disable fast object allocator', False),

View file

@ -160,7 +160,8 @@ if 'O3CPU' in env['CPU_MODELS']:
''')
if env['USE_CHECKER']:
sources += Split('o3/checker_builder.cc')
env['SMT_CPU_MODELS'].append('O3CPU')
else:
env['SMT_CPU_MODELS'].append('O3CPU') # Checker doesn't support SMT right now
if 'OzoneCPU' in env['CPU_MODELS']:
need_bp_unit = True

View file

@ -1,91 +1,101 @@
from m5 import build_env
from m5.config import *
from BaseCPU import BaseCPU
from Checker import O3Checker
class DerivO3CPU(BaseCPU):
type = 'DerivO3CPU'
activity = Param.Unsigned("Initial count")
numThreads = Param.Unsigned("number of HW thread contexts")
activity = Param.Unsigned(0, "Initial count")
numThreads = Param.Unsigned(1, "number of HW thread contexts")
checker = Param.BaseCPU(NULL, "checker")
if build_env['USE_CHECKER']:
if not build_env['FULL_SYSTEM']:
checker = Param.BaseCPU(O3Checker(workload=Parent.workload,
exitOnError=True,
warnOnlyOnLoadError=False),
"checker")
else:
checker = Param.BaseCPU(O3Checker(exitOnError=True, warnOnlyOnLoadError=False), "checker")
checker.itb = Parent.itb
checker.dtb = Parent.dtb
cachePorts = Param.Unsigned("Cache Ports")
icache_port = Port("Instruction Port")
dcache_port = Port("Data Port")
decodeToFetchDelay = Param.Unsigned("Decode to fetch delay")
renameToFetchDelay = Param.Unsigned("Rename to fetch delay")
iewToFetchDelay = Param.Unsigned("Issue/Execute/Writeback to fetch "
decodeToFetchDelay = Param.Unsigned(1, "Decode to fetch delay")
renameToFetchDelay = Param.Unsigned(1 ,"Rename to fetch delay")
iewToFetchDelay = Param.Unsigned(1, "Issue/Execute/Writeback to fetch "
"delay")
commitToFetchDelay = Param.Unsigned("Commit to fetch delay")
fetchWidth = Param.Unsigned("Fetch width")
commitToFetchDelay = Param.Unsigned(1, "Commit to fetch delay")
fetchWidth = Param.Unsigned(8, "Fetch width")
renameToDecodeDelay = Param.Unsigned("Rename to decode delay")
iewToDecodeDelay = Param.Unsigned("Issue/Execute/Writeback to decode "
renameToDecodeDelay = Param.Unsigned(1, "Rename to decode delay")
iewToDecodeDelay = Param.Unsigned(1, "Issue/Execute/Writeback to decode "
"delay")
commitToDecodeDelay = Param.Unsigned("Commit to decode delay")
fetchToDecodeDelay = Param.Unsigned("Fetch to decode delay")
decodeWidth = Param.Unsigned("Decode width")
commitToDecodeDelay = Param.Unsigned(1, "Commit to decode delay")
fetchToDecodeDelay = Param.Unsigned(1, "Fetch to decode delay")
decodeWidth = Param.Unsigned(8, "Decode width")
iewToRenameDelay = Param.Unsigned("Issue/Execute/Writeback to rename "
iewToRenameDelay = Param.Unsigned(1, "Issue/Execute/Writeback to rename "
"delay")
commitToRenameDelay = Param.Unsigned("Commit to rename delay")
decodeToRenameDelay = Param.Unsigned("Decode to rename delay")
renameWidth = Param.Unsigned("Rename width")
commitToRenameDelay = Param.Unsigned(1, "Commit to rename delay")
decodeToRenameDelay = Param.Unsigned(1, "Decode to rename delay")
renameWidth = Param.Unsigned(8, "Rename width")
commitToIEWDelay = Param.Unsigned("Commit to "
commitToIEWDelay = Param.Unsigned(1, "Commit to "
"Issue/Execute/Writeback delay")
renameToIEWDelay = Param.Unsigned("Rename to "
renameToIEWDelay = Param.Unsigned(2, "Rename to "
"Issue/Execute/Writeback delay")
issueToExecuteDelay = Param.Unsigned("Issue to execute delay (internal "
issueToExecuteDelay = Param.Unsigned(1, "Issue to execute delay (internal "
"to the IEW stage)")
dispatchWidth = Param.Unsigned("Dispatch width")
issueWidth = Param.Unsigned("Issue width")
wbWidth = Param.Unsigned("Writeback width")
wbDepth = Param.Unsigned("Writeback depth")
fuPool = Param.FUPool(NULL, "Functional Unit pool")
dispatchWidth = Param.Unsigned(8, "Dispatch width")
issueWidth = Param.Unsigned(8, "Issue width")
wbWidth = Param.Unsigned(8, "Writeback width")
wbDepth = Param.Unsigned(1, "Writeback depth")
fuPool = Param.FUPool("Functional Unit pool")
iewToCommitDelay = Param.Unsigned("Issue/Execute/Writeback to commit "
iewToCommitDelay = Param.Unsigned(1, "Issue/Execute/Writeback to commit "
"delay")
renameToROBDelay = Param.Unsigned("Rename to reorder buffer delay")
commitWidth = Param.Unsigned("Commit width")
squashWidth = Param.Unsigned("Squash width")
trapLatency = Param.Tick("Trap latency")
fetchTrapLatency = Param.Tick("Fetch trap latency")
renameToROBDelay = Param.Unsigned(1, "Rename to reorder buffer delay")
commitWidth = Param.Unsigned(8, "Commit width")
squashWidth = Param.Unsigned(8, "Squash width")
trapLatency = Param.Tick(13, "Trap latency")
fetchTrapLatency = Param.Tick(1, "Fetch trap latency")
backComSize = Param.Unsigned("Time buffer size for backwards communication")
forwardComSize = Param.Unsigned("Time buffer size for forward communication")
backComSize = Param.Unsigned(5, "Time buffer size for backwards communication")
forwardComSize = Param.Unsigned(5, "Time buffer size for forward communication")
predType = Param.String("Branch predictor type ('local', 'tournament')")
localPredictorSize = Param.Unsigned("Size of local predictor")
localCtrBits = Param.Unsigned("Bits per counter")
localHistoryTableSize = Param.Unsigned("Size of local history table")
localHistoryBits = Param.Unsigned("Bits for the local history")
globalPredictorSize = Param.Unsigned("Size of global predictor")
globalCtrBits = Param.Unsigned("Bits per counter")
globalHistoryBits = Param.Unsigned("Bits of history")
choicePredictorSize = Param.Unsigned("Size of choice predictor")
choiceCtrBits = Param.Unsigned("Bits of choice counters")
predType = Param.String("tournament", "Branch predictor type ('local', 'tournament')")
localPredictorSize = Param.Unsigned(2048, "Size of local predictor")
localCtrBits = Param.Unsigned(2, "Bits per counter")
localHistoryTableSize = Param.Unsigned(2048, "Size of local history table")
localHistoryBits = Param.Unsigned(11, "Bits for the local history")
globalPredictorSize = Param.Unsigned(8192, "Size of global predictor")
globalCtrBits = Param.Unsigned(2, "Bits per counter")
globalHistoryBits = Param.Unsigned(4096, "Bits of history")
choicePredictorSize = Param.Unsigned(8192, "Size of choice predictor")
choiceCtrBits = Param.Unsigned(2, "Bits of choice counters")
BTBEntries = Param.Unsigned("Number of BTB entries")
BTBTagSize = Param.Unsigned("Size of the BTB tags, in bits")
BTBEntries = Param.Unsigned(4096, "Number of BTB entries")
BTBTagSize = Param.Unsigned(16, "Size of the BTB tags, in bits")
RASSize = Param.Unsigned("RAS size")
RASSize = Param.Unsigned(16, "RAS size")
LQEntries = Param.Unsigned("Number of load queue entries")
SQEntries = Param.Unsigned("Number of store queue entries")
LFSTSize = Param.Unsigned("Last fetched store table size")
SSITSize = Param.Unsigned("Store set ID table size")
LQEntries = Param.Unsigned(32, "Number of load queue entries")
SQEntries = Param.Unsigned(32, "Number of store queue entries")
LFSTSize = Param.Unsigned(1024, "Last fetched store table size")
SSITSize = Param.Unsigned(1024, "Store set ID table size")
numRobs = Param.Unsigned("Number of Reorder Buffers");
numRobs = Param.Unsigned(1, "Number of Reorder Buffers");
numPhysIntRegs = Param.Unsigned("Number of physical integer registers")
numPhysFloatRegs = Param.Unsigned("Number of physical floating point "
numPhysIntRegs = Param.Unsigned(256, "Number of physical integer registers")
numPhysFloatRegs = Param.Unsigned(256, "Number of physical floating point "
"registers")
numIQEntries = Param.Unsigned("Number of instruction queue entries")
numROBEntries = Param.Unsigned("Number of reorder buffer entries")
numIQEntries = Param.Unsigned(64, "Number of instruction queue entries")
numROBEntries = Param.Unsigned(192, "Number of reorder buffer entries")
instShiftAmt = Param.Unsigned("Number of bits to shift instructions by")
instShiftAmt = Param.Unsigned(2, "Number of bits to shift instructions by")
function_trace = Param.Bool(False, "Enable function trace")
function_trace_start = Param.Tick(0, "Cycle to start function trace")

View file

@ -1,6 +1,6 @@
# -*- mode:python -*-
# Copyright (c) 2004-2005 The Regents of The University of Michigan
# Copyright (c) 2004-2006 The Regents of The University of Michigan
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
@ -25,6 +25,9 @@
# 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: Steve Reinhardt
# Kevin Lim
import os
import sys
@ -136,7 +139,8 @@ def update_test_string(target, source, env):
updateAction = env.Action(update_test, update_test_string)
def test_builder(env, category, cpu_list=[], os_list=[], refdir='ref', timeout=15):
def test_builder(env, category, cpu_list=[], os_list=[], refdir='ref',
timeout=15):
"""Define a test.
Args:
@ -153,12 +157,23 @@ def test_builder(env, category, cpu_list=[], os_list=[], refdir='ref', timeout=1
default_refdir = True
if len(cpu_list) == 0:
cpu_list = env['CPU_MODELS']
if env['TEST_CPU_MODELS']:
temp_cpu_list = []
for i in env['TEST_CPU_MODELS']:
if i in cpu_list:
temp_cpu_list.append(i)
cpu_list = temp_cpu_list
# Code commented out that shows the general structure if we want to test
# different OS's as well.
# if len(os_list) == 0:
# raise RuntimeError, "No OS specified"
# for test_cpu in cpu_list:
# build_cpu_test(env, category, '', test_cpu, refdir, timeout)
# else:
# for test_os in os_list:
# build_cpu_test(env, category, test_os, cpu_list, refdir, timeout)
# Loop through CPU models and generate proper options, ref directories for each
# for test_cpu in cpu_list:
# build_cpu_test(env, category, test_os, test_cpu, refdir,
# timeout)
# Loop through CPU models and generate proper options, ref directories
for cpu in cpu_list:
test_os = ''
if cpu == "AtomicSimpleCPU":
@ -171,7 +186,8 @@ def test_builder(env, category, cpu_list=[], os_list=[], refdir='ref', timeout=1
raise TypeError, "Unknown CPU model specified"
if default_refdir:
# Reference stats located in ref/arch/os/cpu or ref/arch/cpu if no OS specified
# Reference stats located in ref/arch/os/cpu or ref/arch/cpu
# if no OS specified
test_refdir = os.path.join(refdir, env['TARGET_ISA'])
if test_os != '':
test_refdir = os.path.join(test_refdir, test_os)
@ -202,8 +218,8 @@ def test_builder(env, category, cpu_list=[], os_list=[], refdir='ref', timeout=1
else:
cmd = [base_cmd, '>', cmd_stdout, '2>', cmd_stderr]
env.Command([stdout_string, stderr_string, m5stats_string], [env.M5Binary, 'run.py'],
' '.join(cmd))
env.Command([stdout_string, stderr_string, m5stats_string],
[env.M5Binary, 'run.py'], ' '.join(cmd))
# order of targets is important... see check_test
env.Command([outdiff_string, statsdiff_string, status_string],
@ -212,10 +228,12 @@ def test_builder(env, category, cpu_list=[], os_list=[], refdir='ref', timeout=1
# phony target to echo status
if env['update_ref']:
p = env.Command(cpu_option[1] + '_update', [ref_stats, m5stats_string, status_string],
p = env.Command(cpu_option[1] + '_update',
[ref_stats, m5stats_string, status_string],
updateAction)
else:
p = env.Command(cpu_option[1] + '_print', [status_string], printAction)
p = env.Command(cpu_option[1] + '_print', [status_string],
printAction)
env.AlwaysBuild(p)
env.Tests.setdefault(category, [])