From ff259baf121fd32c3618f8c660e86b9d1ed269ad Mon Sep 17 00:00:00 2001 From: Daniel Friesel Date: Thu, 19 Sep 2019 15:32:24 +0200 Subject: harness / generate-dfa-benchmark: terminate logging after reaching repeat count --- bin/generate-dfa-benchmark.py | 41 ++++++++++++++++++++++++++++------------- 1 file changed, 28 insertions(+), 13 deletions(-) (limited to 'bin/generate-dfa-benchmark.py') diff --git a/bin/generate-dfa-benchmark.py b/bin/generate-dfa-benchmark.py index 6ccb1ef..c030d49 100755 --- a/bin/generate-dfa-benchmark.py +++ b/bin/generate-dfa-benchmark.py @@ -56,7 +56,7 @@ from utils import flatten opt = dict() -def benchmark_from_runs(pta: PTA, runs: list, harness: OnboardTimerHarness, benchmark_id: int = 0, dummy = False) -> io.StringIO: +def benchmark_from_runs(pta: PTA, runs: list, harness: OnboardTimerHarness, benchmark_id: int = 0, dummy = False, repeat = 0) -> io.StringIO: outbuf = io.StringIO() outbuf.write('#include "arch.h"\n') @@ -79,10 +79,15 @@ def benchmark_from_runs(pta: PTA, runs: list, harness: OnboardTimerHarness, benc # When starting the log before flashing, output from a previous benchmark may cause bogus data to be added. # When flashing first and then starting the log, the first log lines may be lost. # To work around this, we flash first, then start the log, and use this delay statement to ensure that no output is lost. - # This is also useful to faciliate MIMOSA calibration after flashing. + # This is also useful to faciliate MIMOSA calibration after flashing outbuf.write('arch.delay_ms(12000);\n') - outbuf.write('while (1) {\n') + if repeat: + outbuf.write('unsigned char i = 0;\n') + outbuf.write('while (i++ < {}) {{\n'.format(repeat)) + else: + outbuf.write('while (1) {\n') + outbuf.write(harness.start_benchmark()) class_prefix = '' @@ -124,13 +129,18 @@ def benchmark_from_runs(pta: PTA, runs: list, harness: OnboardTimerHarness, benc outbuf.write(harness.stop_benchmark()) outbuf.write('}\n') + + # Ensure logging can be terminated after the specified number of measurements + outbuf.write(harness.start_benchmark()) + + outbuf.write('while(1) { }\n') outbuf.write('return 0;\n') outbuf.write('}\n') return outbuf def run_benchmark(application_file: str, pta: PTA, runs: list, arch: str, app: str, run_args: list, harness: object, sleep: int = 0, repeat: int = 0, run_offset: int = 0, runs_total: int = 0, dummy = False): - outbuf = benchmark_from_runs(pta, runs, harness, dummy = dummy) + outbuf = benchmark_from_runs(pta, runs, harness, dummy = dummy, repeat = repeat) with open(application_file, 'w') as f: f.write(outbuf.getvalue()) print('[MAKE] building benchmark with {:d} runs'.format(len(runs))) @@ -173,7 +183,7 @@ def run_benchmark(application_file: str, pta: PTA, runs: list, arch: str, app: s try: slept = 0 - while repeat == 0 or slept / run_timeout < 1: + while repeat == 0 or not harness.done: time.sleep(5) slept += 5 print('[RUN] {:d}/{:d} ({:.0f}%), current benchmark at {:.0f}%'.format(run_offset, runs_total, run_offset * 100 / runs_total, slept * 100 / run_timeout)) @@ -281,8 +291,8 @@ if __name__ == '__main__': if next(filter(lambda x: len(x.return_value_handlers), pta.transitions), None): need_return_values = True - harness = OnboardTimerHarness(gpio_pin = timer_pin, pta = pta, counter_limits = runner.get_counter_limits_us(opt['arch']), log_return_values = need_return_values) - harness = TransitionHarness(gpio_pin = timer_pin, pta = pta, log_return_values = need_return_values) + harness = OnboardTimerHarness(gpio_pin = timer_pin, pta = pta, counter_limits = runner.get_counter_limits_us(opt['arch']), log_return_values = need_return_values, repeat = opt['repeat']) + harness = TransitionHarness(gpio_pin = timer_pin, pta = pta, log_return_values = need_return_values, repeat = opt['repeat']) if len(args) > 1: results = run_benchmark(args[1], pta, runs, opt['arch'], opt['app'], opt['run'].split(), harness, opt['sleep'], opt['repeat'], runs_total = len(runs), dummy = 'dummy' in opt) @@ -295,22 +305,27 @@ if __name__ == '__main__': 'configs' : list(map(lambda x: x[2].get_config(), results)), } extra_files = flatten(json_out['files']) - output_prefix = time.strftime('/home/derf/var/ess/aemr/data/ptalog-%Y%m%d-%H%M%S') - with open('{}.json'.format(output_prefix), 'w') as f: - json.dump(json_out, f) + if 'instance' in pta.codegen: + output_prefix = time.strftime('/home/derf/var/ess/aemr/data/%Y%m%d-%H%M%S-') + pta.codegen['instance'] + else: + output_prefix = time.strftime('/home/derf/var/ess/aemr/data/%Y%m%d-%H%M%S-ptalog') if len(extra_files): + with open('ptalog.json', 'w') as f: + json.dump(json_out, f) with tarfile.open('{}.tar'.format(output_prefix), 'w') as tar: - tar.add('{}.json'.format(output_prefix)) + tar.add('ptalog.json') for extra_file in extra_files: tar.add(extra_file) print(' --> {}.tar'.format(output_prefix)) - os.remove('{}.json'.format(output_prefix)) + os.remove('ptalog.json') for extra_file in extra_files: os.remove(extra_file) else: + with open('{}.json'.format(output_prefix), 'w') as f: + json.dump(json_out, f) print(' --> {}.json'.format(output_prefix)) else: - outbuf = benchmark_from_runs(pta, runs, harness) + outbuf = benchmark_from_runs(pta, runs, harness, repeat = repeat) print(outbuf.getvalue()) sys.exit(0) -- cgit v1.2.3