# Copyright 2024 The HuggingFace Inc. team. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """ This script tests to ensure that `accelerate` performs at the same level as raw `TransformersEngine`. This particular script verifies this for single GPU training. """ import evaluate import torch import transformer_engine.common.recipe as te_recipe import transformer_engine.pytorch as te from fp8_utils import evaluate_model, get_named_parameters, get_training_utilities from transformer_engine.common.recipe import DelayedScaling from accelerate import Accelerator from accelerate.state import AcceleratorState from accelerate.utils import FP8RecipeKwargs, set_seed from accelerate.utils.transformer_engine import convert_model MODEL_NAME = "bert-base-cased" METRIC = evaluate.load("glue", "mrpc") def train_baseline(): set_seed(42) model, optimizer, train_dataloader, eval_dataloader, lr_scheduler = get_training_utilities(MODEL_NAME) # Convert the model to TE old_named_params = get_named_parameters(model) with torch.no_grad(): convert_model(model) new_named_params = get_named_parameters(model) mapping = {p: new_named_params[n] for n, p in old_named_params.items()} for param_group in optimizer.param_groups: param_group["params"] = [mapping[p] for p in param_group["params"]] FP8_RECIPE_KWARGS = {"fp8_format": te_recipe.Format.HYBRID, "amax_history_len": 32, "amax_compute_algo": "max"} fp8_recipe = DelayedScaling(**FP8_RECIPE_KWARGS) model.to("cuda") base_model_results = evaluate_model(model, eval_dataloader, METRIC) model.train() for batch in train_dataloader: with te.fp8_autocast(enabled=True, fp8_recipe=fp8_recipe): with torch.autocast(device_type="cuda", dtype=torch.bfloat16): batch = batch.to("cuda") outputs = model(**batch) loss = outputs.loss loss.backward() optimizer.step() optimizer.zero_grad() lr_scheduler.step() trained_model_results = evaluate_model(model, eval_dataloader, METRIC) assert trained_model_results["accuracy"] > base_model_results["accuracy"], ( f"Accuracy should be higher for the trained model: {trained_model_results['accuracy']} > {base_model_results['accuracy']}" ) assert trained_model_results["f1"] > base_model_results["f1"], ( f"F1 score should be higher for the trained model: {trained_model_results['f1']} > {base_model_results['f1']}" ) return base_model_results, trained_model_results def train_integration(): FP8_RECIPE_KWARGS = {"fp8_format": "HYBRID", "amax_history_len": 32, "amax_compute_algo": "max"} kwargs_handlers = [FP8RecipeKwargs(backend="TE", **FP8_RECIPE_KWARGS)] AcceleratorState()._reset_state(True) accelerator = Accelerator(mixed_precision="fp8", kwargs_handlers=kwargs_handlers) set_seed(42) model, optimizer, train_dataloader, eval_dataloader, lr_scheduler = get_training_utilities( MODEL_NAME, accelerator=accelerator ) model, optimizer, lr_scheduler = accelerator.prepare(model, optimizer, lr_scheduler) base_model_results = evaluate_model(model, eval_dataloader, METRIC) model.train() for batch in train_dataloader: outputs = model(**batch) loss = outputs.loss accelerator.backward(loss) optimizer.step() optimizer.zero_grad() lr_scheduler.step() trained_model_results = evaluate_model(model, eval_dataloader, METRIC) assert trained_model_results["accuracy"] > base_model_results["accuracy"], ( f"Accuracy should be higher for the trained model: {trained_model_results['accuracy']} > {base_model_results['accuracy']}" ) assert trained_model_results["f1"] > base_model_results["f1"], ( f"F1 score should be higher for the trained model: {trained_model_results['f1']} > {base_model_results['f1']}" ) return base_model_results, trained_model_results if __name__ == "__main__": baseline_not_trained, baseline_trained = train_baseline() accelerator_not_trained, accelerator_trained = train_integration() assert baseline_not_trained["accuracy"] == accelerator_not_trained["accuracy"], ( f"Accuracy should be the same for the baseline and accelerator: {baseline_not_trained['accuracy']} == {accelerator_not_trained['accuracy']}" ) assert baseline_not_trained["f1"] == accelerator_not_trained["f1"], ( f"F1 score should be the same for the baseline and accelerator: {baseline_not_trained['f1']} == {accelerator_not_trained['f1']}" ) assert baseline_trained["accuracy"] == accelerator_trained["accuracy"], ( f"Accuracy should be the same for the baseline and accelerator: {baseline_trained['accuracy']} == {accelerator_trained['accuracy']}" ) assert baseline_trained["f1"] == accelerator_trained["f1"], ( f"F1 score should be the same for the baseline and accelerator: {baseline_trained['f1']} == {accelerator_trained['f1']}" )