示例#1
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def do_sched_test(task_graph,
                  workers,
                  scheduler,
                  netmodel=None,
                  trace=False,
                  return_simulator=False,
                  min_scheduling_interval=None,
                  scheduling_time=None):

    if netmodel is None:
        netmodel = InstantNetModel()

    if isinstance(workers, int):
        workers = [Worker() for _ in range(workers)]
    elif isinstance(workers[0], int):
        workers = [Worker(cpus=cpus) for cpus in workers]
    else:
        assert isinstance(workers[0], Worker)
    simulator = Simulator(task_graph,
                          workers,
                          scheduler,
                          netmodel,
                          trace=trace,
                          scheduling_time=scheduling_time,
                          min_scheduling_interval=min_scheduling_interval)
    result = simulator.run()
    if return_simulator:
        return simulator
    else:
        return result
示例#2
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def test_worker_priority_block():
    g = TaskGraph()

    a = g.new_task("a", duration=1)
    b = g.new_task("b", duration=1, cpus=3)
    c = g.new_task("c", duration=1)

    s = fixed_scheduler([(0, a, 3), (0, b, 2), (0, c, 1)])

    w = [Worker(cpus=3)]
    simulator = do_sched_test(g, w, s, SimpleNetModel(), return_simulator=True)
    runtime_state = simulator.runtime_state

    assert runtime_state.task_info(a).end_time == pytest.approx(1)
    assert runtime_state.task_info(b).end_time == pytest.approx(2)
    assert runtime_state.task_info(c).end_time == pytest.approx(1)

    s = fixed_scheduler([(0, a, 3), (0, b, 2, 2), (0, c, 1)])

    w = [Worker(cpus=3)]
    simulator = do_sched_test(g, w, s, SimpleNetModel(), return_simulator=True)
    runtime_state = simulator.runtime_state

    assert runtime_state.task_info(a).end_time == pytest.approx(1)
    assert runtime_state.task_info(b).end_time == pytest.approx(2)
    assert runtime_state.task_info(c).end_time == pytest.approx(3)
示例#3
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def test_worker_max_downloads_per_worker():
    g = TaskGraph()

    a = g.new_task("a", duration=0, outputs=[1, 1, 1, 1])
    b = g.new_task("b", duration=0)
    b.add_inputs(a.outputs)

    s = fixed_scheduler([
        (0, a, 0),
        (1, b, 0),
    ])

    assert do_sched_test(g, [1, 1], s, SimpleNetModel()) == 2
    assert do_sched_test(
        g, [Worker(), Worker(max_downloads_per_worker=1)], s,
        SimpleNetModel()) == 4
    assert do_sched_test(
        g, [Worker(), Worker(max_downloads_per_worker=2)], s,
        SimpleNetModel()) == 2
    assert do_sched_test(
        g, [Worker(), Worker(max_downloads_per_worker=3)], s,
        SimpleNetModel()) == 2
    assert do_sched_test(
        g, [Worker(), Worker(max_downloads_per_worker=4)], s,
        SimpleNetModel()) == 1
    assert do_sched_test(
        g, [Worker(), Worker(max_downloads_per_worker=5)], s,
        SimpleNetModel()) == 1
示例#4
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 def make_workers(max_downloads, max_downloads_per_worker=2):
     return [
         Worker(),
         Worker(),
         Worker(),
         Worker(),
         Worker(max_downloads=max_downloads,
                max_downloads_per_worker=max_downloads_per_worker)
     ]
示例#5
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def test_worker_estimate_earliest_time_offset_now():
    tg = TaskGraph()
    t0 = tg.new_task(expected_duration=3, cpus=1)
    t1 = tg.new_task(expected_duration=5, cpus=1)
    t2 = tg.new_task(expected_duration=3, cpus=2)

    worker = Worker(cpus=2)
    worker.assignments = [
        TaskAssignment(worker, t0),
        TaskAssignment(worker, t1)
    ]
    worker.running_tasks[t0] = RunningTask(t0, 0)
    worker.running_tasks[t1] = RunningTask(t1, 0)

    assert worker_estimate_earliest_time(worker, t2, 2) == 3
示例#6
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def test_estimate_schedule(plan1):
    netmodel = SimpleNetModel(1)
    workers = [Worker(cpus=4) for _ in range(4)]

    schedule = [TaskAssignment(w, t) for (w, t) in zip(itertools.cycle(workers), plan1.tasks)]

    assert estimate_schedule(schedule, plan1, netmodel) == 16
示例#7
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def create_netmodel(cclass=MinMaxFlowNetModel):
    env = simpy.Environment()
    workers = [Worker() for _ in range(4)]
    for i, w in enumerate(workers):
        w.id = i
    netmodel = cclass(100)
    netmodel.init(env, workers)
    return netmodel, env, workers
示例#8
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def test_estimate_schedule_zero_expected_time(plan1):
    netmodel = SimpleNetModel(1)
    workers = [Worker(cpus=4) for _ in range(4)]

    plan1.tasks[1].expected_duration = 0
    plan1.tasks[5].expected_duration = 0

    schedule = [TaskAssignment(w, t) for (w, t) in zip(itertools.cycle(workers), plan1.tasks)]

    assert estimate_schedule(schedule, plan1, netmodel) == 15
示例#9
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def test_worker_estimate_earliest_time():
    tg = TaskGraph()
    t0 = tg.new_task(expected_duration=3, cpus=2)
    t1 = tg.new_task(expected_duration=5, cpus=1)
    t2 = tg.new_task(expected_duration=4, cpus=3)
    t4 = tg.new_task(expected_duration=4, cpus=2)
    t5 = tg.new_task(expected_duration=4, cpus=2)

    worker = Worker(cpus=4)
    worker.assignments = [
        TaskAssignment(worker, t0),
        TaskAssignment(worker, t1),
        TaskAssignment(worker, t2),
        TaskAssignment(worker, t4)
    ]
    worker.running_tasks[t0] = RunningTask(t0, 0)
    worker.running_tasks[t1] = RunningTask(t1, 0)

    assert worker_estimate_earliest_time(worker, t5, 0) == 7
示例#10
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def test_worker_download_priorities2():
    g = TaskGraph()

    a = g.new_task("a", duration=0, outputs=[2, 2])
    b = g.new_task("b", duration=4, output_size=2)
    d = g.new_task("d", duration=1)

    a2 = g.new_task("a2", duration=1)
    a2.add_input(a.outputs[0])

    b2 = g.new_task("b", duration=1, output_size=1)
    b2.add_input(a.outputs[1])
    b2.add_input(b)

    s = fixed_scheduler([(0, a), (0, b), (1, d, 3), (1, a2, 1), (1, b2, 2)])

    w = [Worker(cpus=3), Worker(cpus=1, max_downloads=1)]
    simulator = do_sched_test(g, w, s, SimpleNetModel(), return_simulator=True)

    assert simulator.runtime_state.task_info(a2).end_time == pytest.approx(3)
    assert simulator.runtime_state.task_info(b2).end_time == pytest.approx(7)
示例#11
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def test_worker_download_priorities1():
    SIZE = 20
    g = TaskGraph()

    a = g.new_task("a", duration=0, outputs=[1] * SIZE)
    b = [g.new_task("b{}".format(i), duration=0) for i in range(SIZE)]
    for i, t in enumerate(b):
        t.add_input(a.outputs[i])

    r = random.Random(42)
    priorities = list(range(SIZE))
    r.shuffle(priorities)

    s = fixed_scheduler([(0, a, 0)] + [(1, t, p)
                                       for t, p in zip(b, priorities)])

    w = [Worker(), Worker(max_downloads=2, max_downloads_per_worker=2)]
    simulator = do_sched_test(g, w, s, SimpleNetModel(), return_simulator=True)

    runtime_state = simulator.runtime_state
    for t, p in zip(b, priorities):
        assert runtime_state.task_info(t).end_time == pytest.approx(
            (SIZE - p - 1) // 2 + 1)
示例#12
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def test_worker_execute_priorities():
    SIZE = 20
    g = TaskGraph()
    b = [g.new_task("b{}".format(i), duration=1) for i in range(SIZE)]

    r = random.Random(42)
    priorities = list(range(SIZE))
    r.shuffle(priorities)

    s = fixed_scheduler([(0, t, p) for t, p in zip(b, priorities)])
    simulator = do_sched_test(g, [Worker(cpus=2)], s, return_simulator=True)

    runtime_state = simulator.runtime_state
    for t, p in zip(b, priorities):
        assert runtime_state.task_info(t).end_time == pytest.approx(
            (SIZE - p - 1) // 2 + 1)
示例#13
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 def create_worker(wargs):
     if instance.netmodel == "simple":
         return Worker(**wargs,
                       max_downloads=inf,
                       max_downloads_per_worker=inf)
     return Worker(**wargs)