mirror of https://github.com/hpcaitech/ColossalAI
aibig-modeldata-parallelismdeep-learningdistributed-computingfoundation-modelsheterogeneous-traininghpcinferencelarge-scalemodel-parallelismpipeline-parallelism
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90 lines
3.2 KiB
90 lines
3.2 KiB
import torch |
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import colossalai |
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import copy |
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import pytest |
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import torch.multiprocessing as mp |
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from colossalai.amp import convert_to_naive_amp, convert_to_apex_amp |
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from tests.components_to_test.registry import non_distributed_component_funcs |
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from colossalai.testing import assert_close_loose |
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from colossalai.utils import free_port |
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from functools import partial |
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def check_equal(a, b): |
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""" |
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This function checks if two tensors are equal within tolerance |
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""" |
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assert torch.allclose(a.float(), b.float(), rtol=1e-4, atol=1e-3), f'a = {a}, b = {b}' |
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def run_naive_amp(): |
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""" |
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In this test, we compare the naive fp16 optimizer implemented in colossalai |
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and fp32 torch optimizer |
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""" |
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torch.backends.cudnn.benchmark = False |
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torch.backends.cudnn.deterministic = True |
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# create layer |
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test_models = ['repeated_computed_layers', 'nested_model', 'resnet18'] |
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for test_name in test_models: |
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get_component_func = non_distributed_component_funcs.get_callable(test_name) |
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model_builder, train_dataloader, _, optim_class, _ = get_component_func() |
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# create model |
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naive_amp_model = model_builder(checkpoint=True).cuda() |
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apex_amp_model = copy.deepcopy(naive_amp_model) |
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# create optimizer |
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naive_amp_optimizer = optim_class(naive_amp_model.parameters(), lr=1e-3) |
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apex_amp_optimizer = optim_class(apex_amp_model.parameters(), lr=1e-3) |
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# inject naive and apex amp |
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naive_amp_config = dict(initial_scale=128) |
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naive_amp_model, naive_amp_optimizer = convert_to_naive_amp(naive_amp_model, naive_amp_optimizer, |
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naive_amp_config) |
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apex_amp_config = dict(opt_level='O2', loss_scale=128, keep_batchnorm_fp32=False) |
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apex_amp_model, apex_amp_optimizer = convert_to_apex_amp(apex_amp_model, apex_amp_optimizer, apex_amp_config) |
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# create data |
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data_iter = iter(train_dataloader) |
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data, label = next(data_iter) |
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data = data.cuda() |
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# forward pass |
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naive_amp_output = naive_amp_model(data) |
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apex_amp_output = apex_amp_model(data) |
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assert_close_loose(naive_amp_output, apex_amp_output) |
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# backward |
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naive_amp_optimizer.backward(naive_amp_output.mean()) |
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apex_amp_optimizer.backward(apex_amp_output.mean()) |
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# check grad |
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for naive_amp_param, apex_amp_param in zip(naive_amp_model.parameters(), apex_amp_model.parameters()): |
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assert_close_loose(naive_amp_param.grad, apex_amp_param.grad) |
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# step |
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naive_amp_optimizer.step() |
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apex_amp_optimizer.step() |
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# check updated param |
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for naive_amp_param, apex_amp_param in zip(naive_amp_model.parameters(), apex_amp_model.parameters()): |
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assert_close_loose(naive_amp_param, apex_amp_param) |
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def run_dist(rank, world_size, port): |
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colossalai.launch(config=dict(), rank=rank, world_size=world_size, port=port, host='localhost') |
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run_naive_amp() |
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@pytest.mark.dist |
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def test_naive_amp(): |
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world_size = 1 |
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run_func = partial(run_dist, world_size=world_size, port=free_port()) |
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mp.spawn(run_func, nprocs=world_size) |
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if __name__ == '__main__': |
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test_naive_amp()
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