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from datasets import load_dataset
from transformers import TrainingArguments
from span_marker import SpanMarkerModel, Trainer
def main() -> None:
# Load the dataset, ensure "tokens" and "ner_tags" columns, and get a list of labels
dataset = "Babelscape/multinerd"
train_dataset = load_dataset(dataset, split="train")
eval_dataset = load_dataset(dataset, split="validation").shuffle().select(range(3000))
labels = [
"O",
"B-PER",
"I-PER",
"B-ORG",
"I-ORG",
"B-LOC",
"I-LOC",
"B-ANIM",
"I-ANIM",
"B-BIO",
"I-BIO",
"B-CEL",
"I-CEL",
"B-DIS",
"I-DIS",
"B-EVE",
"I-EVE",
"B-FOOD",
"I-FOOD",
"B-INST",
"I-INST",
"B-MEDIA",
"I-MEDIA",
"B-MYTH",
"I-MYTH",
"B-PLANT",
"I-PLANT",
"B-TIME",
"I-TIME",
"B-VEHI",
"I-VEHI",
]
# Initialize a SpanMarker model using a pretrained BERT-style encoder
model_name = "xlm-roberta-base"
model = SpanMarkerModel.from_pretrained(
model_name,
labels=labels,
# SpanMarker hyperparameters:
model_max_length=256,
marker_max_length=128,
entity_max_length=6,
)
# Prepare the 🤗 transformers training arguments
args = TrainingArguments(
output_dir="models/span_marker_xlm_roberta_base_multinerd",
# Training Hyperparameters:
learning_rate=1e-5,
per_device_train_batch_size=32,
per_device_eval_batch_size=32,
# gradient_accumulation_steps=2,
num_train_epochs=1,
weight_decay=0.01,
warmup_ratio=0.1,
bf16=True, # Replace `bf16` with `fp16` if your hardware can't use bf16.
# Other Training parameters
logging_first_step=True,
logging_steps=50,
evaluation_strategy="steps",
save_strategy="steps",
eval_steps=1000,
save_total_limit=2,
dataloader_num_workers=2,
)
# Initialize the trainer using our model, training args & dataset, and train
trainer = Trainer(
model=model,
args=args,
train_dataset=train_dataset,
eval_dataset=eval_dataset,
)
trainer.train()
trainer.save_model("models/span_marker_xlm_roberta_base_multinerd/checkpoint-final")
test_dataset = load_dataset(dataset, split="test")
# Compute & save the metrics on the test set
metrics = trainer.evaluate(test_dataset, metric_key_prefix="test")
trainer.save_metrics("test", metrics)
if __name__ == "__main__":
main()
"""
This SpanMarker model will ignore 2.239322% of all annotated entities in the train dataset. This is caused by the SpanMarkerModel maximum entity length of 6 words and the maximum model input length of 256 tokens.
These are the frequencies of the missed entities due to maximum entity length out of 4111958 total entities:
- 35814 missed entities with 7 words (0.870972%)
- 21246 missed entities with 8 words (0.516688%)
- 12680 missed entities with 9 words (0.308369%)
- 7308 missed entities with 10 words (0.177726%)
- 4414 missed entities with 11 words (0.107345%)
- 2474 missed entities with 12 words (0.060166%)
- 1894 missed entities with 13 words (0.046061%)
- 1130 missed entities with 14 words (0.027481%)
- 744 missed entities with 15 words (0.018094%)
- 582 missed entities with 16 words (0.014154%)
- 344 missed entities with 17 words (0.008366%)
- 226 missed entities with 18 words (0.005496%)
- 84 missed entities with 19 words (0.002043%)
- 46 missed entities with 20 words (0.001119%)
- 20 missed entities with 21 words (0.000486%)
- 20 missed entities with 22 words (0.000486%)
- 12 missed entities with 23 words (0.000292%)
- 18 missed entities with 24 words (0.000438%)
- 2 missed entities with 25 words (0.000049%)
- 4 missed entities with 26 words (0.000097%)
- 4 missed entities with 27 words (0.000097%)
- 2 missed entities with 31 words (0.000049%)
- 8 missed entities with 32 words (0.000195%)
- 6 missed entities with 33 words (0.000146%)
- 2 missed entities with 34 words (0.000049%)
- 4 missed entities with 36 words (0.000097%)
- 8 missed entities with 37 words (0.000195%)
- 2 missed entities with 38 words (0.000049%)
- 2 missed entities with 41 words (0.000049%)
- 2 missed entities with 72 words (0.000049%)
Additionally, a total of 2978 (0.072423%) entities were missed due to the maximum input length.
This SpanMarker model won't be able to predict 2.501087% of all annotated entities in the evaluation dataset. This is caused by the SpanMarkerModel maximum entity length of 6 words.
These are the frequencies of the missed entities due to maximum entity length out of 4598 total entities:
- 45 missed entities with 7 words (0.978686%)
- 27 missed entities with 8 words (0.587212%)
- 21 missed entities with 9 words (0.456720%)
- 9 missed entities with 10 words (0.195737%)
- 3 missed entities with 12 words (0.065246%)
- 4 missed entities with 13 words (0.086994%)
- 3 missed entities with 14 words (0.065246%)
- 1 missed entities with 15 words (0.021749%)
- 1 missed entities with 16 words (0.021749%)
- 1 missed entities with 20 words (0.021749%)
"""
"""
wandb: Run summary:
wandb: eval/loss 0.00594
wandb: eval/overall_accuracy 0.98181
wandb: eval/overall_f1 0.90333
wandb: eval/overall_precision 0.91259
wandb: eval/overall_recall 0.89427
wandb: eval/runtime 21.4308
wandb: eval/samples_per_second 154.171
wandb: eval/steps_per_second 4.853
wandb: test/loss 0.00559
wandb: test/overall_accuracy 0.98247
wandb: test/overall_f1 0.91314
wandb: test/overall_precision 0.91994
wandb: test/overall_recall 0.90643
wandb: test/runtime 2202.6894
wandb: test/samples_per_second 169.652
wandb: test/steps_per_second 5.302
wandb: train/epoch 1.0
wandb: train/global_step 93223
wandb: train/learning_rate 0.0
wandb: train/loss 0.0049
wandb: train/total_flos 7.851073325660897e+17
wandb: train/train_loss 0.01782
wandb: train/train_runtime 41756.9748
wandb: train/train_samples_per_second 71.44
wandb: train/train_steps_per_second 2.233
"""