client/tests/npb/npb.py - platform/external/autotest - Git at Google

 import os, shutil, logging, re
 from autotest_lib.client.bin import test, utils
 from autotest_lib.client.common_lib import error

 class npb(test.test):
     """
     This module runs the NAS Parallel Benchmarks on the client machine

     @note: Since we use gfortran to complie these benchmarks, this test might
             not be able to run on older Operating Systems.
     @see: http://www.nas.nasa.gov/Resources/Software/npb.html
     """
     version = 1
     def initialize(self, tests=''):
         # Initialize failure counter
         self.n_fail = 0
         # Get the parameters for run_once()
         self.tests = tests
         # Ratio is the reason between 1 and the number of CPUs of the system.
         self.ratio = 1.0 / utils.count_cpus()
         logging.debug('Ratio (1/n_cpus) found for this system: %s' % self.ratio)


     def setup(self, tarball='NPB3.3.tar.gz'):
         tarball = utils.unmap_url(self.bindir, tarball, self.tmpdir)
         utils.extract_tarball_to_dir(tarball, self.srcdir)
         os.chdir(self.srcdir)
         # Prepare the makefile and benchmarks to generate.
         utils.system('patch -p1 < ../enable-all-tests.patch')
         utils.system('cd NPB3.3-OMP && make suite')


     def run_once(self):
         """
         Run each benchmark twice, with different number of threads.

         A sanity check is made on each benchmark executed:
         The ratio between the times
         time_ratio = time_one_thrd / time_full_thrds

         Has to be contained inside an envelope:
         upper_bound = full_thrds * (1 + (1/n_cpus))
         lower_bound = full_thrds * (1 - (1/n_cpus))

         Otherwise, we throw an exception (this test might be running under a
         virtual machine and sanity check failure might mean bugs on smp
         implementation).
         """
         os.chdir(self.srcdir)

         # get the tests to run
         test_list = self.tests.split()

         if len(test_list) == 0:
             raise error.TestError('No tests (benchmarks) provided. Exit.')

         for itest in test_list:
             itest_cmd = os.path.join('NPB3.3-OMP/bin/', itest)
             try:
                 itest = utils.run(itest_cmd)
             except:
                 logging.error('NPB benchmark %s has failed. Output: %s',
                               itest_cmd, itest.stdout)
                 self.n_fail += 1
             logging.debug(itest.stdout)

             # Get the number of threads that the test ran
             # (which is supposed to be equal to the number of system cores)
             m = re.search('Total threads\s*=\s*(.*)\n', itest.stdout)

             # Gather benchmark results
             ts = re.search('Time in seconds\s*=\s*(.*)\n', itest.stdout)
             mt = re.search('Mop/s total\s*=\s*(.*)\n', itest.stdout)
             mp = re.search('Mop/s/thread\s*=\s*(.*)\n', itest.stdout)

             time_seconds = float(ts.groups()[0])
             mops_total = float(mt.groups()[0])
             mops_per_thread = float(mp.groups()[0])

             logging.info('Test: %s', itest_cmd)
             logging.info('Time (s): %s', time_seconds)
             logging.info('Total operations executed (mops/s): %s', mops_total)
             logging.info('Total operations per thread (mops/s/thread): %s',
                           mops_per_thread)

             self.write_test_keyval({'test': itest_cmd})
             self.write_test_keyval({'time_seconds': time_seconds})
             self.write_test_keyval({'mops_total': mops_total})
             self.write_test_keyval({'mops_per_thread': mops_per_thread})

             # A little extra sanity check comes handy
             if int(m.groups()[0]) != utils.count_cpus():
                 raise error.TestError("NPB test suite evaluated the number "
                                       "of threads incorrectly: System appears "
                                       "to have %s cores, but %s threads were "
                                       "executed.")

             # We will use this integer with float point vars later.
             full_thrds = float(m.groups()[0])

             # get duration for full_threads running.
             m = re.search('Time in seconds\s*=\s*(.*)\n', itest.stdout)
             time_full_thrds = float(m.groups()[0])

             # repeat the execution with single thread.
             itest_single_cmd = ''.join(['OMP_NUM_THREADS=1 ', itest_cmd])
             try:
                 itest_single = utils.run(itest_single_cmd)
             except:
                 logging.error('NPB benchmark single thread %s has failed. '
                               'Output: %s',
                               itest_single_cmd,
                               itest_single.stdout)
                 self.n_fail += 1

             m = re.search('Time in seconds\s*=\s*(.*)\n', itest_single.stdout)
             time_one_thrd = float(m.groups()[0])

             # check durations
             ratio = self.ratio
             time_ratio = float(time_one_thrd / time_full_thrds)
             upper_bound = full_thrds * (1 + ratio)
             lower_bound = full_thrds * (1 - ratio)
             logging.debug('Time ratio for %s: %s', itest_cmd, time_ratio)
             logging.debug('Upper bound: %s', upper_bound)
             logging.debug('Lower bound: %s', lower_bound)

             violates_upper_bound = time_ratio > upper_bound
             violates_lower_bound = time_ratio < lower_bound
             if violates_upper_bound or violates_lower_bound:
                 logging.error('NPB benchmark %s failed sanity check '
                               '- time ratio outside bounds' % itest_cmd)
                 self.n_fail += 1
             else:
                 logging.debug('NPB benchmark %s sanity check PASS' % itest_cmd)


     def cleanup(self):
         """
         Raise TestError if failures were detected during test execution.
         """
         if self.n_fail != 0:
             raise error.TestError('NPB test failed.')
         else:
             logging.info('NPB test passed.')
	import os, shutil, logging, re
	from autotest_lib.client.bin import test, utils
	from autotest_lib.client.common_lib import error

	class npb(test.test):
	"""
	This module runs the NAS Parallel Benchmarks on the client machine

	@note: Since we use gfortran to complie these benchmarks, this test might
	not be able to run on older Operating Systems.
	@see: http://www.nas.nasa.gov/Resources/Software/npb.html
	"""
	version = 1
	def initialize(self, tests=''):
	# Initialize failure counter
	self.n_fail = 0
	# Get the parameters for run_once()
	self.tests = tests
	# Ratio is the reason between 1 and the number of CPUs of the system.
	self.ratio = 1.0 / utils.count_cpus()
	logging.debug('Ratio (1/n_cpus) found for this system: %s' % self.ratio)


	def setup(self, tarball='NPB3.3.tar.gz'):
	tarball = utils.unmap_url(self.bindir, tarball, self.tmpdir)
	utils.extract_tarball_to_dir(tarball, self.srcdir)
	os.chdir(self.srcdir)
	# Prepare the makefile and benchmarks to generate.
	utils.system('patch -p1 < ../enable-all-tests.patch')
	utils.system('cd NPB3.3-OMP && make suite')


	def run_once(self):
	"""
	Run each benchmark twice, with different number of threads.

	A sanity check is made on each benchmark executed:
	The ratio between the times
	time_ratio = time_one_thrd / time_full_thrds

	Has to be contained inside an envelope:
	upper_bound = full_thrds * (1 + (1/n_cpus))
	lower_bound = full_thrds * (1 - (1/n_cpus))

	Otherwise, we throw an exception (this test might be running under a
	virtual machine and sanity check failure might mean bugs on smp
	implementation).
	"""
	os.chdir(self.srcdir)

	# get the tests to run
	test_list = self.tests.split()

	if len(test_list) == 0:
	raise error.TestError('No tests (benchmarks) provided. Exit.')

	for itest in test_list:
	itest_cmd = os.path.join('NPB3.3-OMP/bin/', itest)
	try:
	itest = utils.run(itest_cmd)
	except:
	logging.error('NPB benchmark %s has failed. Output: %s',
	itest_cmd, itest.stdout)
	self.n_fail += 1
	logging.debug(itest.stdout)

	# Get the number of threads that the test ran
	# (which is supposed to be equal to the number of system cores)
	m = re.search('Total threads\s=\s(.*)\n', itest.stdout)

	# Gather benchmark results
	ts = re.search('Time in seconds\s=\s(.*)\n', itest.stdout)
	mt = re.search('Mop/s total\s=\s(.*)\n', itest.stdout)
	mp = re.search('Mop/s/thread\s=\s(.*)\n', itest.stdout)

	time_seconds = float(ts.groups()[0])
	mops_total = float(mt.groups()[0])
	mops_per_thread = float(mp.groups()[0])

	logging.info('Test: %s', itest_cmd)
	logging.info('Time (s): %s', time_seconds)
	logging.info('Total operations executed (mops/s): %s', mops_total)
	logging.info('Total operations per thread (mops/s/thread): %s',
	mops_per_thread)

	self.write_test_keyval({'test': itest_cmd})
	self.write_test_keyval({'time_seconds': time_seconds})
	self.write_test_keyval({'mops_total': mops_total})
	self.write_test_keyval({'mops_per_thread': mops_per_thread})

	# A little extra sanity check comes handy
	if int(m.groups()[0]) != utils.count_cpus():
	raise error.TestError("NPB test suite evaluated the number "
	"of threads incorrectly: System appears "
	"to have %s cores, but %s threads were "
	"executed.")

	# We will use this integer with float point vars later.
	full_thrds = float(m.groups()[0])

	# get duration for full_threads running.
	m = re.search('Time in seconds\s=\s(.*)\n', itest.stdout)
	time_full_thrds = float(m.groups()[0])

	# repeat the execution with single thread.
	itest_single_cmd = ''.join(['OMP_NUM_THREADS=1 ', itest_cmd])
	try:
	itest_single = utils.run(itest_single_cmd)
	except:
	logging.error('NPB benchmark single thread %s has failed. '
	'Output: %s',
	itest_single_cmd,
	itest_single.stdout)
	self.n_fail += 1

	m = re.search('Time in seconds\s=\s(.*)\n', itest_single.stdout)
	time_one_thrd = float(m.groups()[0])

	# check durations
	ratio = self.ratio
	time_ratio = float(time_one_thrd / time_full_thrds)
	upper_bound = full_thrds * (1 + ratio)
	lower_bound = full_thrds * (1 - ratio)
	logging.debug('Time ratio for %s: %s', itest_cmd, time_ratio)
	logging.debug('Upper bound: %s', upper_bound)
	logging.debug('Lower bound: %s', lower_bound)

	violates_upper_bound = time_ratio > upper_bound
	violates_lower_bound = time_ratio < lower_bound
	if violates_upper_bound or violates_lower_bound:
	logging.error('NPB benchmark %s failed sanity check '
	'- time ratio outside bounds' % itest_cmd)
	self.n_fail += 1
	else:
	logging.debug('NPB benchmark %s sanity check PASS' % itest_cmd)


	def cleanup(self):
	"""
	Raise TestError if failures were detected during test execution.
	"""
	if self.n_fail != 0:
	raise error.TestError('NPB test failed.')
	else:
	logging.info('NPB test passed.')