19.3. Asynchronous Random Search¶ Open the notebook in SageMaker Studio Lab
As we have seen in the previous Section 19.2, we might have to wait hours or even days before random search returns a good hyperparameter configuration, because of the expensive evaluation of hyperparameter configurations. In practice, we have often access to a pool of resources such as multiple GPUs on the same machine or multiple machines with a single GPU. This begs the question: How do we efficiently distribute random search?
In general, we distinguish between synchronous and asynchronous parallel hyperparameter optimization (see Fig. 19.3.1). In the synchronous setting, we wait for all concurrently running trials to finish, before we start the next batch. Consider configuration spaces that contain hyperparameters such as the number of filters or number of layers of a deep neural network. Hyperparameter configurations that contain a larger number of layers of filters will naturally take more time to finish, and all other trials in the same batch will have to wait at synchronisation points (grey area in Fig. 19.3.1) before we can continue the optimization process.
In the asynchronous setting we immediately schedule a new trial as soon as resources become available. This will optimally exploit our resources, since we can avoid any synchronisation overhead. For random search, each new hyperparameter configuration is chosen independently of all others, and in particular without exploiting observations from any prior evaluation. This means we can trivially parallelize random search asynchronously. This is not straight-forward with more sophisticated methods that make decision based on previous observations (see Section 19.5). While we need access to more resources than in the sequential setting, asynchronous random search exhibits a linear speed-up, in that a certain performance is reached \(K\) times faster if \(K\) trials can be run in parallel.
In this notebook, we will look at asynchronous random search that, where trials are executed in multiple python processes on the same machine. Distributed job scheduling and execution is difficult to implement from scratch. We will use Syne Tune (Salinas et al., 2022), which provides us with a simple interface for asynchronous HPO. Syne Tune is designed to be run with different execution back-ends, and the interested reader is invited to study its simple APIs in order to learn more about distributed HPO.
import logging
from d2l import torch as d2l
logging.basicConfig(level=logging.INFO)
from syne_tune import StoppingCriterion, Tuner
from syne_tune.backend.python_backend import PythonBackend
from syne_tune.config_space import loguniform, randint
from syne_tune.experiments import load_experiment
from syne_tune.optimizer.baselines import RandomSearch
INFO:root:SageMakerBackend is not imported since dependencies are missing. You can install them with
pip install 'syne-tune[extra]'
AWS dependencies are not imported since dependencies are missing. You can install them with
pip install 'syne-tune[aws]'
or (for everything)
pip install 'syne-tune[extra]'
AWS dependencies are not imported since dependencies are missing. You can install them with
pip install 'syne-tune[aws]'
or (for everything)
pip install 'syne-tune[extra]'
INFO:root:Ray Tune schedulers and searchers are not imported since dependencies are missing. You can install them with
pip install 'syne-tune[raytune]'
or (for everything)
pip install 'syne-tune[extra]'
19.3.1. Objective Function¶
First, we have to define a new objective function such that it now
returns the performance back to Syne Tune via the report
callback.
def hpo_objective_lenet_synetune(learning_rate, batch_size, max_epochs):
from syne_tune import Reporter
from d2l import torch as d2l
model = d2l.LeNet(lr=learning_rate, num_classes=10)
trainer = d2l.HPOTrainer(max_epochs=1, num_gpus=1)
data = d2l.FashionMNIST(batch_size=batch_size)
model.apply_init([next(iter(data.get_dataloader(True)))[0]], d2l.init_cnn)
report = Reporter()
for epoch in range(1, max_epochs + 1):
if epoch == 1:
# Initialize the state of Trainer
trainer.fit(model=model, data=data)
else:
trainer.fit_epoch()
validation_error = trainer.validation_error().cpu().detach().numpy()
report(epoch=epoch, validation_error=float(validation_error))
Note that the PythonBackend
of Syne Tune requires dependencies to be
imported inside the function definition.
19.3.2. Asynchronous Scheduler¶
First, we define the number of workers that evaluate trials concurrently. We also need to specify how long we want to run random search, by defining an upper limit on the total wall-clock time.
n_workers = 2 # Needs to be <= the number of available GPUs
max_wallclock_time = 12 * 60 # 12 minutes
Next, we state which metric we want to optimize and whether we want to
minimize or maximize this metric. Namely, metric
needs to correspond
to the argument name passed to the report
callback.
mode = "min"
metric = "validation_error"
We use the configuration space from our previous example. In Syne Tune,
this dictionary can also be used to pass constant attributes to the
training script. We make use of this feature in order to pass
max_epochs
. Moreover, we specify the first configuration to be
evaluated in initial_config
.
config_space = {
"learning_rate": loguniform(1e-2, 1),
"batch_size": randint(32, 256),
"max_epochs": 10,
}
initial_config = {
"learning_rate": 0.1,
"batch_size": 128,
}
Next, we need to specify the back-end for job executions. Here we just consider the distribution on a local machine where parallel jobs are executed as sub-processes. However, for large scale HPO, we could run this also on a cluster or cloud environment, where each trial consumes a full instance.
trial_backend = PythonBackend(
tune_function=hpo_objective_lenet_synetune,
config_space=config_space,
)
We can now create the scheduler for asynchronous random search, which is
similar in behaviour to our BasicScheduler
from
Section 19.2.
scheduler = RandomSearch(
config_space,
metric=metric,
mode=mode,
points_to_evaluate=[initial_config],
)
INFO:syne_tune.optimizer.schedulers.fifo:max_resource_level = 10, as inferred from config_space
INFO:syne_tune.optimizer.schedulers.fifo:Master random_seed = 2737092907
Syne Tune also features a Tuner
, where the main experiment loop and
bookkeeping is centralized, and interactions between scheduler and
back-end are mediated.
stop_criterion = StoppingCriterion(max_wallclock_time=max_wallclock_time)
tuner = Tuner(
trial_backend=trial_backend,
scheduler=scheduler,
stop_criterion=stop_criterion,
n_workers=n_workers,
print_update_interval=int(max_wallclock_time * 0.6),
)
Let us run our distributed HPO experiment. According to our stopping criterion, it will run for about 12 minutes.
tuner.run()
INFO:syne_tune.tuner:results of trials will be saved on /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958
INFO:root:Detected 4 GPUs
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.1 --batch_size 128 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/0/checkpoints
INFO:syne_tune.tuner:(trial 0) - scheduled config {'learning_rate': 0.1, 'batch_size': 128, 'max_epochs': 10}
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.1702844732454753 --batch_size 114 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/1/checkpoints
INFO:syne_tune.tuner:(trial 1) - scheduled config {'learning_rate': 0.1702844732454753, 'batch_size': 114, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 0 completed.
INFO:syne_tune.tuner:Trial trial_id 1 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.34019846567238493 --batch_size 221 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/2/checkpoints
INFO:syne_tune.tuner:(trial 2) - scheduled config {'learning_rate': 0.34019846567238493, 'batch_size': 221, 'max_epochs': 10}
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.014628124155727769 --batch_size 88 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/3/checkpoints
INFO:syne_tune.tuner:(trial 3) - scheduled config {'learning_rate': 0.014628124155727769, 'batch_size': 88, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 2 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.1114831485450576 --batch_size 142 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/4/checkpoints
INFO:syne_tune.tuner:(trial 4) - scheduled config {'learning_rate': 0.1114831485450576, 'batch_size': 142, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 3 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.014076038679980779 --batch_size 223 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/5/checkpoints
INFO:syne_tune.tuner:(trial 5) - scheduled config {'learning_rate': 0.014076038679980779, 'batch_size': 223, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 4 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.02558173674804846 --batch_size 62 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/6/checkpoints
INFO:syne_tune.tuner:(trial 6) - scheduled config {'learning_rate': 0.02558173674804846, 'batch_size': 62, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 5 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.026035979388614055 --batch_size 139 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/7/checkpoints
INFO:syne_tune.tuner:(trial 7) - scheduled config {'learning_rate': 0.026035979388614055, 'batch_size': 139, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 6 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.24202494130424274 --batch_size 231 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/8/checkpoints
INFO:syne_tune.tuner:(trial 8) - scheduled config {'learning_rate': 0.24202494130424274, 'batch_size': 231, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 7 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.10483132064775551 --batch_size 145 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/9/checkpoints
INFO:syne_tune.tuner:(trial 9) - scheduled config {'learning_rate': 0.10483132064775551, 'batch_size': 145, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 8 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.017898854850751864 --batch_size 51 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/10/checkpoints
INFO:syne_tune.tuner:(trial 10) - scheduled config {'learning_rate': 0.017898854850751864, 'batch_size': 51, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 9 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.9645419978270817 --batch_size 200 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/11/checkpoints
INFO:syne_tune.tuner:(trial 11) - scheduled config {'learning_rate': 0.9645419978270817, 'batch_size': 200, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 11 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.10559888854748693 --batch_size 40 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/12/checkpoints
INFO:syne_tune.tuner:(trial 12) - scheduled config {'learning_rate': 0.10559888854748693, 'batch_size': 40, 'max_epochs': 10}
INFO:syne_tune.tuner:tuning status (last metric is reported)
trial_id status iter learning_rate batch_size max_epochs epoch validation_error worker-time
0 Completed 10 0.100000 128 10 10.0 0.277195 64.928907
1 Completed 10 0.170284 114 10 10.0 0.286225 65.434195
2 Completed 10 0.340198 221 10 10.0 0.218990 59.729758
3 Completed 10 0.014628 88 10 10.0 0.899920 81.001636
4 Completed 10 0.111483 142 10 10.0 0.268684 64.427400
5 Completed 10 0.014076 223 10 10.0 0.899922 61.264475
6 Completed 10 0.025582 62 10 10.0 0.399520 75.966186
7 Completed 10 0.026036 139 10 10.0 0.899988 62.261541
8 Completed 10 0.242025 231 10 10.0 0.257636 58.186485
9 Completed 10 0.104831 145 10 10.0 0.273898 59.771699
10 InProgress 8 0.017899 51 10 8.0 0.496118 66.999746
11 Completed 10 0.964542 200 10 10.0 0.181600 59.159662
12 InProgress 0 0.105599 40 10 - - -
2 trials running, 11 finished (11 until the end), 436.60s wallclock-time
INFO:syne_tune.tuner:Trial trial_id 10 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.5846051207380589 --batch_size 35 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/13/checkpoints
INFO:syne_tune.tuner:(trial 13) - scheduled config {'learning_rate': 0.5846051207380589, 'batch_size': 35, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 12 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.2468891379769198 --batch_size 146 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/14/checkpoints
INFO:syne_tune.tuner:(trial 14) - scheduled config {'learning_rate': 0.2468891379769198, 'batch_size': 146, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 13 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.12956867470224812 --batch_size 218 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/15/checkpoints
INFO:syne_tune.tuner:(trial 15) - scheduled config {'learning_rate': 0.12956867470224812, 'batch_size': 218, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 14 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.24900745354561854 --batch_size 103 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/16/checkpoints
INFO:syne_tune.tuner:(trial 16) - scheduled config {'learning_rate': 0.24900745354561854, 'batch_size': 103, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 15 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.03903577426988046 --batch_size 80 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/17/checkpoints
INFO:syne_tune.tuner:(trial 17) - scheduled config {'learning_rate': 0.03903577426988046, 'batch_size': 80, 'max_epochs': 10}
INFO:syne_tune.tuner:Trial trial_id 16 completed.
INFO:root:running subprocess with command: /usr/bin/python /home/ci/.local/lib/python3.8/site-packages/syne_tune/backend/python_backend/python_entrypoint.py --learning_rate 0.01846559300690354 --batch_size 183 --max_epochs 10 --tune_function_root /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/tune_function --tune_function_hash 4d7d5b85e4537ad0c5d0a202623dcec5 --st_checkpoint_dir /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958/18/checkpoints
INFO:syne_tune.tuner:(trial 18) - scheduled config {'learning_rate': 0.01846559300690354, 'batch_size': 183, 'max_epochs': 10}
INFO:syne_tune.stopping_criterion:reaching max wallclock time (720), stopping there.
INFO:syne_tune.tuner:Stopping trials that may still be running.
INFO:syne_tune.tuner:Tuning finished, results of trials can be found on /home/ci/syne-tune/python-entrypoint-2023-08-18-19-45-39-958
--------------------
Resource summary (last result is reported):
trial_id status iter learning_rate batch_size max_epochs epoch validation_error worker-time
0 Completed 10 0.100000 128 10 10 0.277195 64.928907
1 Completed 10 0.170284 114 10 10 0.286225 65.434195
2 Completed 10 0.340198 221 10 10 0.218990 59.729758
3 Completed 10 0.014628 88 10 10 0.899920 81.001636
4 Completed 10 0.111483 142 10 10 0.268684 64.427400
5 Completed 10 0.014076 223 10 10 0.899922 61.264475
6 Completed 10 0.025582 62 10 10 0.399520 75.966186
7 Completed 10 0.026036 139 10 10 0.899988 62.261541
8 Completed 10 0.242025 231 10 10 0.257636 58.186485
9 Completed 10 0.104831 145 10 10 0.273898 59.771699
10 Completed 10 0.017899 51 10 10 0.405545 83.778503
11 Completed 10 0.964542 200 10 10 0.181600 59.159662
12 Completed 10 0.105599 40 10 10 0.182500 94.734384
13 Completed 10 0.584605 35 10 10 0.153846 110.965637
14 Completed 10 0.246889 146 10 10 0.215050 65.142847
15 Completed 10 0.129569 218 10 10 0.313873 61.310455
16 Completed 10 0.249007 103 10 10 0.196101 72.519127
17 InProgress 9 0.039036 80 10 9 0.369000 73.403000
18 InProgress 5 0.018466 183 10 5 0.900263 34.714568
2 trials running, 17 finished (17 until the end), 722.84s wallclock-time
validation_error: best 0.14451533555984497 for trial-id 13
--------------------
The logs of all evaluated hyperparameter configurations are stored for further analysis. At any time during the tuning job, we can easily get the results obtained so far and plot the incumbent trajectory.
d2l.set_figsize()
tuning_experiment = load_experiment(tuner.name)
tuning_experiment.plot()
WARNING:matplotlib.legend:No artists with labels found to put in legend. Note that artists whose label start with an underscore are ignored when legend() is called with no argument.
19.3.3. Visualize the Asynchronous Optimization Process¶
Below we visualize how the learning curves of every trial (each color in the plot represents a trial) evolve during the asynchronous optimization process. At any point in time, there are as many trials running concurrently as we have workers. Once a trial finishes, we immediately start the next trial, without waiting for the other trials to finish. Idle time of workers is reduced to a minimum with asynchronous scheduling.
d2l.set_figsize([6, 2.5])
results = tuning_experiment.results
for trial_id in results.trial_id.unique():
df = results[results["trial_id"] == trial_id]
d2l.plt.plot(
df["st_tuner_time"],
df["validation_error"],
marker="o"
)
d2l.plt.xlabel("wall-clock time")
d2l.plt.ylabel("objective function")
Text(0, 0.5, 'objective function')
19.3.4. Summary¶
We can reduce the waiting time for random search substantially by distribution trials across parallel resources. In general, we distinguish between synchronous scheduling and asynchronous scheduling. Synchronous scheduling means that we sample a new batch of hyperparameter configurations once the previous batch finished. If we have a stragglers - trials that takes more time to finish than other trials - our workers need to wait at synchronization points. Asynchronous scheduling evaluates a new hyperparameter configurations as soon as resources become available, and, hence, ensures that all workers are busy at any point in time. While random search is easy to distribute asynchronously and does not require any change of the actual algorithm, other methods require some additional modifications.
19.3.5. Exercises¶
Consider the
DropoutMLP
model implemented in Section 5.6, and used in Exercise 1 of Section 19.2.Implement an objective function
hpo_objective_dropoutmlp_synetune
to be used with Syne Tune. Make sure that your function reports the validation error after every epoch.Using the setup of Exercise 1 in Section 19.2, compare random search to Bayesian optimization. If you use SageMaker, feel free to use Syne Tune’s benchmarking facilities in order to run experiments in parallel. Hint: Bayesian optimization is provided as
syne_tune.optimizer.baselines.BayesianOptimization
.For this exercise, you need to run on an instance with at least 4 CPU cores. For one of the methods used above (random search, Bayesian optimization), run experiments with
n_workers=1
,n_workers=2
,n_workers=4
, and compare results (incumbent trajectories). At least for random search, you should observe linear scaling with respect to the number of workers. Hint: For robust results, you may have to average over several repetitions each.
Advanced. The goal of this exercise is to implement a new scheduler in Syne Tune.
Create a virtual environment containing both the d2lbook and syne-tune sources.
Implement the
LocalSearcher
from Exercise 2 in Section 19.2 as a new searcher in Syne Tune. Hint: Read this tutorial. Alternatively, you may follow this example.Compare your new
LocalSearcher
withRandomSearch
on theDropoutMLP
benchmark.