Source code for

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"""A microbenchmark for measuring changes in the critical path of FnApiRunner.
This microbenchmark attempts to measure the overhead of the main data paths
for the FnApiRunner. Specifically state, timers, and shuffling of data.

This runs a series of N parallel pipelines with M parallel stages each. Each
stage does the following:

1) Put all the PCollection elements in state
2) Set a timer for the future
3) When the timer fires, change the key and output all the elements downstream

This executes the same codepaths that are run on the Fn API (and Dataflow)
workers, but is generally easier to run (locally) and more stable..

Run as

   python -m

The main metric to work with for this benchmark is Fixed Cost. This represents
the fixed cost of ovehead for the data path of the FnApiRunner.

Initial results were:

run 1 of 10, per element time cost: 3.6778 sec
run 2 of 10, per element time cost: 0.053498 sec
run 3 of 10, per element time cost: 0.0299434 sec
run 4 of 10, per element time cost: 0.0211154 sec
run 5 of 10, per element time cost: 0.0170031 sec
run 6 of 10, per element time cost: 0.0150809 sec
run 7 of 10, per element time cost: 0.013218 sec
run 8 of 10, per element time cost: 0.0119685 sec
run 9 of 10, per element time cost: 0.0107382 sec
run 10 of 10, per element time cost: 0.0103208 sec

Fixed cost   4.537164939085642
Per-element  0.005474923321695039
R^2          0.95189

# pytype: skip-file

from __future__ import absolute_import
from __future__ import division
from __future__ import print_function

import argparse
import logging
import random
from builtins import range

import apache_beam as beam
import apache_beam.typehints.typehints as typehints
from apache_beam.coders import VarIntCoder
from apache_beam.runners.portability.fn_api_runner import FnApiRunner
from import utils
from apache_beam.transforms.timeutil import TimeDomain
from apache_beam.transforms.userstate import SetStateSpec
from apache_beam.transforms.userstate import TimerSpec
from apache_beam.transforms.userstate import on_timer



[docs]class BagInStateOutputAfterTimer(beam.DoFn): SET_STATE = SetStateSpec('buffer', VarIntCoder()) EMIT_TIMER = TimerSpec('emit_timer', TimeDomain.WATERMARK)
[docs] def process( self, element, set_state=beam.DoFn.StateParam(SET_STATE), emit_timer=beam.DoFn.TimerParam(EMIT_TIMER)): _, values = element for v in values: set_state.add(v) emit_timer.set(1)
[docs] @on_timer(EMIT_TIMER) def emit_values(self, set_state=beam.DoFn.StateParam(SET_STATE)): values = return [(random.randint(0, 1000), v) for v in values]
def _build_serial_stages( pipeline, num_serial_stages, num_elements, stage_count): pc = ( pipeline | ('start_stage%s' % stage_count) >> beam.Create( [(random.randint(0, 1000), i) for i in range(num_elements)]) | ('gbk_start_stage%s' % stage_count) >> beam.GroupByKey()) for i in range(num_serial_stages): pc = ( pc | ('stage%s_map%s' % (stage_count, i)) >> beam.ParDo( BagInStateOutputAfterTimer()).with_output_types( typehints.KV[int, int]) | ('stage%s_gbk%s' % (stage_count, i)) >> beam.GroupByKey()) return pc
[docs]def run_single_pipeline(size): def _pipeline_runner(): with beam.Pipeline(runner=FnApiRunner()) as p: for i in range(NUM_PARALLEL_STAGES): _build_serial_stages(p, NUM_SERIAL_STAGES, size, i) return _pipeline_runner
[docs]def run_benchmark(starting_point, num_runs, num_elements_step, verbose): suite = [ utils.LinearRegressionBenchmarkConfig( run_single_pipeline, starting_point, num_elements_step, num_runs) ] utils.run_benchmarks(suite, verbose=verbose)
if __name__ == '__main__': logging.basicConfig() utils.check_compiled('apache_beam.runners.common') parser = argparse.ArgumentParser() parser.add_argument('--num_runs', default=10, type=int) parser.add_argument('--starting_point', default=1, type=int) parser.add_argument('--increment', default=100, type=int) parser.add_argument('--verbose', default=True, type=bool) options = parser.parse_args() run_benchmark( options.starting_point, options.num_runs, options.increment, options.verbose)