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ray-project--ray/python/ray/tune/tests/example.py
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2026-07-13 13:17:40 +08:00

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1.5 KiB
Python

# ruff: noqa
# This is an example quickstart for Tune.
# To connect to a cluster, uncomment below:
# import ray
# import argparse
# parser = argparse.ArgumentParser()
# parser.add_argument("--address")
# args = parser.parse_args()
# ray.init(address=args.address)
# __quick_start_begin__
from ray import tune
def objective(config): # <1>
score = config["a"] ** 2 + config["b"]
return {"score": score}
search_space = { # <2>
"a": tune.grid_search([0.001, 0.01, 0.1, 1.0]),
"b": tune.choice([1, 2, 3]),
}
tuner = tune.Tuner(objective, param_space=search_space) # <3>
results = tuner.fit()
print(results.get_best_result(metric="score", mode="min").config)
# __quick_start_end__
# __ml_quick_start_begin__
def objective(step, alpha, beta):
return (0.1 + alpha * step / 100) ** (-1) + beta * 0.1
def training_function(config):
# Hyperparameters
alpha, beta = config["alpha"], config["beta"]
for step in range(10):
# Iterative training function - can be any arbitrary training procedure.
intermediate_score = objective(step, alpha, beta)
# Feed the score back back to Tune.
tune.report({"mean_loss": intermediate_score})
tuner = tune.Tuner(
training_function,
param_space={
"alpha": tune.grid_search([0.001, 0.01, 0.1]),
"beta": tune.choice([1, 2, 3]),
},
)
results = tuner.fit()
print("Best config: ", results.get_best_result(metric="mean_loss", mode="min").config)
# Get a dataframe for analyzing trial results.
df = results.get_dataframe()
# __ml_quick_start_end__