[booster] add tests for ddp and low level zero's checkpointio (#3715)

* [booster] update tests for booster * [booster] update tests for booster * [booster] update tests for booster * [booster] update tests for booster * [booster] update tests for booster * [booster] update booster tutorials#3717, fix recursive check
2025-07-18 09:21:26 +00:00 · 2023-05-10 12:17:02 +08:00 · 2023-05-10 12:17:02 +08:00 · 20068ba188
commit 20068ba188
parent 6552cbf8e1
6 changed files with 261 additions and 125 deletions
--- a/colossalai/testing/init.py
+++ b/colossalai/testing/init.py
@ -1,4 +1,11 @@
-from .comparison import assert_close, assert_close_loose, assert_equal, assert_equal_in_group, assert_not_equal
+from .comparison import (
    assert_close,
    assert_close_loose,
    assert_equal,
    assert_equal_in_group,
    assert_not_equal,
    check_state_dict_equal,
 )
 from .pytest_wrapper import run_on_environment_flag
 from .utils import (
    clear_cache_before_run,
@ -13,5 +20,5 @@ from .utils import (
 __all__ = [
    'assert_equal', 'assert_not_equal', 'assert_close', 'assert_close_loose', 'assert_equal_in_group', 'parameterize',
    'rerun_on_exception', 'rerun_if_address_is_in_use', 'skip_if_not_enough_gpus', 'free_port', 'spawn',
-    'clear_cache_before_run', 'run_on_environment_flag'
+    'clear_cache_before_run', 'run_on_environment_flag', 'check_state_dict_equal'
 ]
--- a/colossalai/testing/comparison.py
+++ b/colossalai/testing/comparison.py
@ -1,3 +1,5 @@
 from typing import OrderedDict
 import torch
 import torch.distributed as dist
 from torch import Tensor
@ -28,3 +30,25 @@ def assert_equal_in_group(tensor: Tensor, process_group: ProcessGroup = None):
        a = tensor_list[i]
        b = tensor_list[i + 1]
        assert torch.all(a == b), f'expected tensors on rank {i} and {i + 1} to be equal but they are not, {a} vs {b}'
 def check_state_dict_equal(d1: OrderedDict, d2: OrderedDict, ignore_device: bool = True):
    for k, v in d1.items():
        if isinstance(v, dict):
            check_state_dict_equal(v, d2[k])
        elif isinstance(v, list):
            for i in range(len(v)):
                if isinstance(v[i], torch.Tensor):
                    if not ignore_device:
                        v[i] = v[i].to("cpu")
                        d2[k][i] = d2[k][i].to("cpu")
                    assert torch.equal(v[i], d2[k][i])
                else:
                    assert v[i] == d2[k][i]
        elif isinstance(v, torch.Tensor):
            if not ignore_device:
                v = v.to("cpu")
                d2[k] = d2[k].to("cpu")
            assert torch.equal(v, d2[k])
        else:
            assert v == d2[k]
--- a/tests/test_checkpoint_io/test_gemini_checkpoint_io.py
+++ b/tests/test_checkpoint_io/test_gemini_checkpoint_io.py
@ -0,0 +1,98 @@
 import tempfile
 import pytest
 import torch
 import colossalai
 from colossalai.booster.plugin.gemini_plugin import GeminiCheckpointIO
 from colossalai.testing import check_state_dict_equal, parameterize, rerun_if_address_is_in_use, spawn
 from colossalai.utils.cuda import get_current_device
 from colossalai.zero import ColoInitContext, ZeroDDP
 from colossalai.zero.gemini.chunk import ChunkManager, search_chunk_configuration
 from colossalai.zero.gemini.gemini_mgr import GeminiManager
 from tests.components_to_test.registry import non_distributed_component_funcs
@parameterize('placement_policy', ['cuda', 'cpu'])
@parameterize('model_name', ['bert'])
@parameterize('use_safetensors', [True, False])
 def exam_state_dict_with_origin(placement_policy, model_name, use_safetensors: bool):
    from transformers import BertForSequenceClassification
    model_ckpt_dir = tempfile.TemporaryDirectory()
    get_components_func = non_distributed_component_funcs.get_callable(model_name)
    model_builder, *_ = get_components_func()
    with ColoInitContext(device=(get_current_device())):
        bert_model = model_builder()
    bert_model.config.save_pretrained(save_directory=(model_ckpt_dir.name))
    config_dict, *_ = search_chunk_configuration(bert_model, search_range_mb=1, search_interval_byte=100)
    chunk_manager = ChunkManager(config_dict)
    gemini_manager = GeminiManager(placement_policy, chunk_manager)
    bert_model = ZeroDDP(bert_model, gemini_manager)
    bert_model.train()
    ckpt_io = GeminiCheckpointIO()
    if ckpt_io.coordinator.is_master():
        model_size = sum(p.numel() * p.element_size() for p in bert_model.parameters()) / 1024**2
        ckpt_io.save_model(bert_model, (model_ckpt_dir.name),
                           True,
                           True,
                           '', (model_size / 3),
                           use_safetensors=use_safetensors)
        new_bert_model = BertForSequenceClassification.from_pretrained(model_ckpt_dir.name)
        check_state_dict_equal(bert_model.state_dict(only_rank_0=True, dtype=(torch.float32)),
                               new_bert_model.state_dict(), False)
    model_ckpt_dir.cleanup()
@parameterize('placement_policy', ['cuda', 'cpu'])
@parameterize('model_name', ['gpt2', 'bert'])
@parameterize('use_safetensors', [True, False])
 def exam_state_dict(placement_policy, model_name: str, use_safetensors: bool):
    get_components_func = non_distributed_component_funcs.get_callable(model_name)
    model_builder, *_ = get_components_func()
    with ColoInitContext(device=(get_current_device())):
        model = model_builder()
        new_model = model_builder()
    config_dict, *_ = search_chunk_configuration(model, search_range_mb=1, search_interval_byte=100)
    chunk_manager = ChunkManager(config_dict)
    gemini_manager = GeminiManager(placement_policy, chunk_manager)
    model = ZeroDDP(model, gemini_manager)
    model.train()
    #new model
    new_config_dict, *_ = search_chunk_configuration(new_model, search_range_mb=1, search_interval_byte=100)
    new_chunk_manager = ChunkManager(new_config_dict)
    new_gemini_manager = GeminiManager(placement_policy, new_chunk_manager)
    new_model = ZeroDDP(new_model, new_gemini_manager)
    model_ckpt_dir = tempfile.TemporaryDirectory()
    ckpt_io = GeminiCheckpointIO()
    model_size = sum(p.numel() * p.element_size() for p in model.parameters()) / 1024**2
    ckpt_io.save_model(model, (model_ckpt_dir.name),
                       True,
                       True,
                       'epoch', (model_size / 3),
                       use_safetensors=use_safetensors)
    if ckpt_io.coordinator.is_master():
        ckpt_io.load_model(new_model, (model_ckpt_dir.name), strict=True)
        model_dict = model.state_dict(only_rank_0=True)
        new_model_dict = new_model.state_dict(only_rank_0=True)
        check_state_dict_equal(model_dict, new_model_dict, False)
    model_ckpt_dir.cleanup()
 def run_dist(rank, world_size, port):
    config = {}
    colossalai.launch(config=config, rank=rank, world_size=world_size, host='localhost', port=port, backend='nccl')
    exam_state_dict()
    exam_state_dict_with_origin()
@pytest.mark.dist
@pytest.mark.parametrize('world_size', [4, 4])
@rerun_if_address_is_in_use()
 def test_gemini_ckpIO(world_size):
    spawn(run_dist, world_size)
--- a/tests/test_checkpoint_io/test_general_checkpoint_io.py
+++ b/tests/test_checkpoint_io/test_general_checkpoint_io.py
@ -1,20 +1,13 @@
 import tempfile
 import pytest
 import torch
 from torch.optim import Adam
 from torchvision.models import resnet18
 from colossalai.checkpoint_io import GeneralCheckpointIO
 from colossalai.booster.plugin.gemini_plugin import GeminiCheckpointIO
-from colossalai.testing import clear_cache_before_run, parameterize
+from colossalai.checkpoint_io import GeneralCheckpointIO
-
+from colossalai.testing import check_state_dict_equal, clear_cache_before_run, parameterize
 import colossalai
 from colossalai.testing import parameterize, rerun_if_address_is_in_use, spawn
 from colossalai.utils.cuda import get_current_device
 from colossalai.zero import ColoInitContext, ZeroDDP
 from colossalai.zero.gemini.chunk import ChunkManager, search_chunk_configuration
 from colossalai.zero.gemini.gemini_mgr import GeminiManager
 from tests.components_to_test.registry import non_distributed_component_funcs
 # ========
 # Note:
@ -61,10 +54,10 @@ def test_unsharded_checkpoint(use_safetensors: bool):
    ckpt_io.load_model(new_model, model_ckpt_tempfile.name)
    ckpt_io.load_optimizer(new_optimizer, optimizer_ckpt_tempfile.name)
    # check for model and optimizer state dict recursively
-    recursive_check(model.state_dict(), new_model.state_dict())
+    check_state_dict_equal(model.state_dict(), new_model.state_dict())
-    recursive_check(optimizer.state_dict(), new_optimizer.state_dict())
+    check_state_dict_equal(optimizer.state_dict(), new_optimizer.state_dict())
@pytest.mark.parametrize('use_safetensors', [True, False])
 def test_sharded_checkpoint(use_safetensors: bool):
@ -105,111 +98,5 @@ def test_sharded_checkpoint(use_safetensors: bool):
    ckpt_io.load_optimizer(new_optimizer, optimizer_ckpt_tempfile.name)
    # check for model and optimizer state dict recursively
-    recursive_check(model.state_dict(), new_model.state_dict())
+    check_state_dict_equal(model.state_dict(), new_model.state_dict())
-    recursive_check(optimizer.state_dict(), new_optimizer.state_dict())
+    check_state_dict_equal(optimizer.state_dict(), new_optimizer.state_dict())
@parameterize('placement_policy', ['cuda', 'cpu'])
@parameterize('model_name', ['bert'])
@parameterize('use_safetensors', [True, False])
 def hf_load_colossalai_checkpoint(placement_policy, model_name, use_safetensors: bool):
    from transformers import BertTokenizer, BertModel, BertForMaskedLM, BertConfig, BertForSequenceClassification
    model_ckpt_dir = tempfile.TemporaryDirectory()
    get_components_func = non_distributed_component_funcs.get_callable(model_name)
    model_builder, *_ = get_components_func()
    with ColoInitContext(device=get_current_device()):
        bert_model = model_builder()
    bert_model.config.save_pretrained(save_directory=model_ckpt_dir.name)
    config_dict, *_ = search_chunk_configuration(bert_model, search_range_mb=1, search_interval_byte=100)
    chunk_manager = ChunkManager(config_dict)
    gemini_manager = GeminiManager(placement_policy, chunk_manager)
    bert_model = ZeroDDP(bert_model, gemini_manager)
    bert_model.train()
    ckpt_io = GeminiCheckpointIO()
    if ckpt_io.coordinator.is_master():
        model_size = sum(p.numel() * p.element_size() for p in bert_model.parameters()) / 1024**2
        ckpt_io.save_model(bert_model, model_ckpt_dir.name, True, True, "", (model_size / 3), use_safetensors=use_safetensors)
        new_bert_model = BertForSequenceClassification.from_pretrained(model_ckpt_dir.name)
        recursive_check(bert_model.state_dict(only_rank_0=True, dtype=torch.float32), new_bert_model.state_dict())
    model_ckpt_dir.cleanup()
@parameterize('placement_policy', ['cuda', 'cpu'])
@parameterize('model_name', ['gpt2', 'bert'])
@parameterize('use_safetensors', [True, False])
 def exam_state_dict(placement_policy, model_name: str, use_safetensors: bool):
    get_components_func = non_distributed_component_funcs.get_callable(model_name)
    model_builder, *_ = get_components_func()
    with ColoInitContext(device=get_current_device()):
        model = model_builder()
        new_model = model_builder()
    config_dict, *_ = search_chunk_configuration(model, search_range_mb=1, search_interval_byte=100)
    chunk_manager = ChunkManager(config_dict)
    gemini_manager = GeminiManager(placement_policy, chunk_manager)
    model = ZeroDDP(model, gemini_manager)
    model.train()
    new_config_dict, *_ = search_chunk_configuration(new_model, search_range_mb=1, search_interval_byte=100)
    new_chunk_manager = ChunkManager(new_config_dict)
    new_gemini_manager = GeminiManager(placement_policy, new_chunk_manager)
    new_model = ZeroDDP(new_model, new_gemini_manager)
    model_ckpt_dir = tempfile.TemporaryDirectory()
    ckpt_io = GeminiCheckpointIO()
    model_size = sum(p.numel() * p.element_size() for p in model.parameters()) / 1024**2
    ckpt_io.save_model(model, model_ckpt_dir.name, True, True, "epoch", (model_size / 3), use_safetensors=use_safetensors)
    # load model
    if ckpt_io.coordinator.is_master():
        ckpt_io.load_model(new_model, model_ckpt_dir.name, strict=True)
        model_dict = model.state_dict(only_rank_0=True)
        new_model_dict = new_model.state_dict(only_rank_0=True)
        recursive_check(model_dict, new_model_dict)
    model_ckpt_dir.cleanup()
 def run_dist(rank, world_size, port):
    config = {}
    colossalai.launch(config=config, rank=rank, world_size=world_size, host='localhost', port=port, backend='nccl')
    exam_state_dict()
    hf_load_colossalai_checkpoint()
@pytest.mark.dist
@pytest.mark.parametrize('world_size', [4, 4])
@rerun_if_address_is_in_use()
 def test_gemini_ckpIO(world_size):
    spawn(run_dist, world_size)
 # do recursive check for the optimizer state dict
 # if the value is a dict, compare its values
 # if the value is a list, comapre all elements one-by-one
 # if the value is a torch.Tensor, use torch.equal
 # otherwise use assertEqual
 def recursive_check(d1, d2):
    for k, v in d1.items():
        if isinstance(v, dict):
            recursive_check(v, d2[k])
        elif isinstance(v, list):
            for i in range(len(v)):
                if isinstance(v[i], torch.Tensor):
                    v[i] = v[i].to("cpu")
                    d2[k][i] = d2[k][i].to("cpu")
                    assert torch.equal(v[i], d2[k][i])
                else:
                    assert v[i] == d2[k][i]
        elif isinstance(v, torch.Tensor):
            v = v.to("cpu")
            d2[k] = d2[k].to("cpu")
            assert torch.equal(v, d2[k])
        else:
            assert v == d2[k]
--- a/tests/test_checkpoint_io/test_low_level_zero_checkpoint_io.py
+++ b/tests/test_checkpoint_io/test_low_level_zero_checkpoint_io.py
@ -0,0 +1,57 @@
 import tempfile
 import pytest
 import torch
 from torchvision.models import resnet18
 import colossalai
 from colossalai.booster import Booster
 from colossalai.booster.plugin import LowLevelZeroPlugin
 from colossalai.booster.plugin.low_level_zero_plugin import LowLevelZeroCheckpointIO
 from colossalai.nn.optimizer import HybridAdam
 from colossalai.testing import (
    check_state_dict_equal,
    clear_cache_before_run,
    parameterize,
    rerun_if_address_is_in_use,
    spawn,
 )
@clear_cache_before_run()
@parameterize('stage', [2])
 def check_low_level_zero_checkpointIO(stage: int):
    plugin = LowLevelZeroPlugin(stage=stage, max_norm=1.0, initial_scale=32)
    booster = Booster(plugin=plugin)
    model = resnet18()
    criterion = lambda x: x.mean()
    optimizer = HybridAdam((model.parameters()), lr=0.001)
    model, optimizer, criterion, _, _ = booster.boost(model, optimizer, criterion)
    x = torch.randn(4, 3, 224, 224)
    x = x.to('cuda')
    output = model(x)
    loss = criterion(output)
    booster.backward(loss, optimizer)
    optimizer.step()
    optimizer_ckpt_tempfile = tempfile.NamedTemporaryFile()
    ckpt_io = LowLevelZeroCheckpointIO()
    ckpt_io.save_optimizer(optimizer, optimizer_ckpt_tempfile.name)
    if ckpt_io.coordinator.is_master():
        new_model = resnet18()
        new_optimizer = HybridAdam((new_model.parameters()), lr=0.001)
        _, new_optimizer, _, _, _ = booster.boost(new_model, new_optimizer)
        ckpt_io.load_optimizer(new_optimizer, optimizer_ckpt_tempfile.name)
        check_state_dict_equal(optimizer.state_dict(), new_optimizer.state_dict(), False)
 def run_dist(rank, world_size, port):
    colossalai.launch(config=(dict()), rank=rank, world_size=world_size, port=port, host='localhost')
    check_low_level_zero_checkpointIO()
@rerun_if_address_is_in_use()
 def test_low_level_zero_checkpointIO():
    spawn(run_dist, 2)
--- a/tests/test_checkpoint_io/test_torch_ddp_checkpoint_io.py
+++ b/tests/test_checkpoint_io/test_torch_ddp_checkpoint_io.py
@ -0,0 +1,63 @@
 import tempfile
 import torch
 from torch.nn.parallel import DistributedDataParallel as DDP
 from torch.optim import SGD
 from torchvision.models import resnet18
 import colossalai
 from colossalai.booster import Booster
 from colossalai.booster.plugin import TorchDDPPlugin
 from colossalai.booster.plugin.torch_ddp_plugin import TorchDDPCheckpointIO
 from colossalai.interface import OptimizerWrapper
 from colossalai.testing import check_state_dict_equal, rerun_if_address_is_in_use, spawn
 def check_torch_ddp_checkpointIO():
    plugin = TorchDDPPlugin()
    booster = Booster(plugin=plugin)
    model = resnet18()
    criterion = lambda x: x.mean()
    optimizer = SGD((model.parameters()), lr=0.001)
    scheduler = torch.optim.lr_scheduler.StepLR(optimizer, step_size=1, gamma=0.1)
    model, optimizer, criterion, _, _ = booster.boost(model, optimizer, criterion, lr_scheduler=scheduler)
    assert isinstance(model.module, DDP)
    assert isinstance(optimizer, OptimizerWrapper)
    x = torch.randn(4, 3, 224, 224)
    x = x.to('cuda')
    output = model(x)
    loss = criterion(output)
    booster.backward(loss, optimizer)
    optimizer.clip_grad_by_norm(1.0)
    optimizer.step()
    scheduler.step()
    optimizer_ckpt_tempfile = tempfile.NamedTemporaryFile()
    lr_scheduler_ckpt_tempfile = tempfile.NamedTemporaryFile()
    ckpt_io = TorchDDPCheckpointIO()
    ckpt_io.save_optimizer(optimizer, optimizer_ckpt_tempfile.name)
    ckpt_io.save_lr_scheduler(scheduler, lr_scheduler_ckpt_tempfile.name)
    if ckpt_io.coordinator.is_master():
        new_model = resnet18()
        new_optimizer = SGD((new_model.parameters()), lr=0.001)
        new_scheduler = torch.optim.lr_scheduler.StepLR(new_optimizer, step_size=1, gamma=0.1)
        _, new_optimizer, _, _, new_scheduler = booster.boost(new_model, new_optimizer, lr_scheduler=new_scheduler)
        ckpt_io.load_optimizer(new_optimizer, optimizer_ckpt_tempfile.name)
        check_state_dict_equal(optimizer.state_dict(), new_optimizer.state_dict(), False)
        ckpt_io.load_lr_scheduler(new_scheduler, lr_scheduler_ckpt_tempfile.name)
        check_state_dict_equal(scheduler.state_dict(), new_scheduler.state_dict(), False)
 def run_dist(rank, world_size, port):
    colossalai.launch(config=(dict()), rank=rank, world_size=world_size, port=port, host='localhost')
    check_torch_ddp_checkpointIO()
@rerun_if_address_is_in_use()
 def test_torch_ddp_checkpointIO():
    spawn(run_dist, 2)