2023-06-21 01:32:46 +00:00
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import copy
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2023-08-16 07:41:20 +00:00
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import math
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2023-07-10 02:48:53 +00:00
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from contextlib import nullcontext
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2023-08-03 09:50:15 +00:00
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from typing import Any, Callable, Dict, List, Optional
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2023-06-21 01:32:46 +00:00
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2023-07-20 02:39:06 +00:00
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import torch
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2023-08-03 06:51:36 +00:00
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import torch.distributed as dist
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2023-08-03 09:50:15 +00:00
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from torch import Tensor
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from torch import distributed as dist
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from torch.distributed import ProcessGroup
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2023-07-20 02:39:06 +00:00
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from torch.nn import Module
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2023-08-03 09:50:15 +00:00
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from torch.optim import Adam, Optimizer
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2023-07-20 02:39:06 +00:00
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2023-08-03 09:50:15 +00:00
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from colossalai.booster import Booster
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from colossalai.booster.plugin import HybridParallelPlugin
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from colossalai.booster.plugin.hybrid_parallel_plugin import HybridParallelModule
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from colossalai.lazy import LazyInitContext
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from colossalai.pipeline.stage_manager import PipelineStageManager
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from colossalai.shardformer import ShardConfig, ShardFormer
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from colossalai.shardformer._utils import getattr_
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from colossalai.shardformer.policies.auto_policy import Policy
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from colossalai.tensor.d_tensor.api import is_customized_distributed_tensor, is_distributed_tensor
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2023-06-21 01:32:46 +00:00
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2023-08-07 08:41:07 +00:00
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def build_model(model_fn,
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enable_fused_normalization=True,
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enable_tensor_parallelism=True,
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enable_flash_attention=False,
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enable_jit_fused=False,
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enable_sequence_parallelism=False,
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use_lazy_init: bool = False):
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# create new model
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ctx = LazyInitContext() if use_lazy_init else nullcontext()
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with ctx:
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# create new model
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org_model = model_fn()
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model_copy = copy.deepcopy(org_model)
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if use_lazy_init:
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ctx.materialize(org_model)
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# shard model
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shard_config = ShardConfig(enable_fused_normalization=enable_fused_normalization,
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enable_tensor_parallelism=enable_tensor_parallelism,
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enable_flash_attention=enable_flash_attention,
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enable_jit_fused=enable_jit_fused,
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enable_sequence_parallelism=enable_sequence_parallelism)
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model_copy = copy.deepcopy(org_model)
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shard_former = ShardFormer(shard_config=shard_config)
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sharded_model, shared_params = shard_former.optimize(model_copy)
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return org_model.cuda(), sharded_model.cuda()
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2023-07-10 05:58:58 +00:00
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def build_pipeline_model(model_fn,
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stage_manager=None,
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enable_fused_normalization=False,
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enable_tensor_parallelism=False,
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use_lazy_init: bool = False,
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policy: Optional[Policy] = None):
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ctx = LazyInitContext() if use_lazy_init else nullcontext()
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with ctx:
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# create new model
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org_model = model_fn()
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model_copy = copy.deepcopy(org_model)
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if use_lazy_init:
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ctx.materialize(org_model)
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# shard model
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shard_config = ShardConfig(enable_fused_normalization=enable_fused_normalization,
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enable_tensor_parallelism=enable_tensor_parallelism,
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pipeline_stage_manager=stage_manager)
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shard_former = ShardFormer(shard_config=shard_config)
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sharded_model, shared_params = shard_former.optimize(model_copy, policy=policy)
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return org_model.cuda(), sharded_model.cuda()
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def run_forward(original_model, sharded_model, data_gen_fn, output_transform_fn, loss_fn):
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# prepare input
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data = data_gen_fn()
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data = {k: v.cuda() for k, v in data.items()}
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# switch to train mode
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original_model.train()
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sharded_model.train()
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# run forward
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org_output = original_model(**data)
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org_output = output_transform_fn(org_output)
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org_loss = loss_fn(org_output)
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shard_output = sharded_model(**data)
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shard_output = output_transform_fn(shard_output)
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shard_loss = loss_fn(shard_output)
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2023-06-30 01:32:37 +00:00
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return org_output, org_loss, shard_output, shard_loss
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2023-07-20 02:39:06 +00:00
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def check_state_dict(org_model: Module, sharded_model: Module, name: str = ''):
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org_sd = org_model.state_dict()
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shard_sd = sharded_model.state_dict()
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for k, v in org_sd.items():
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assert k in shard_sd, f'{name} {k} not in sharded model'
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shard_v = shard_sd[k]
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assert v.shape == shard_v.shape, f'{name} {k} shape mismatch, {v.shape} vs {shard_v.shape}'
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assert v.dtype == shard_v.dtype, f'{name} {k} dtype mismatch, {v.dtype} vs {shard_v.dtype}'
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assert torch.equal(v, shard_v), f'{name} {k} value mismatch'
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def build_model_from_hybrid_plugin(model_fn: Callable, loss_fn: Callable, test_config: Dict[str, Any]):
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use_lazy_init = False
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if 'use_lazy_init' in test_config:
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use_lazy_init = test_config.pop('use_lazy_init')
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ctx = LazyInitContext() if use_lazy_init else nullcontext()
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with ctx:
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org_model = model_fn()
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sharded_model = copy.deepcopy(org_model)
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if use_lazy_init:
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ctx.materialize(org_model)
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org_model = org_model.cuda()
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org_optimizer = Adam(org_model.parameters(), lr=1e-3)
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sharded_optimizer = Adam(sharded_model.parameters(), lr=1e-3)
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criterion = loss_fn
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plugin = HybridParallelPlugin(**test_config)
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booster = Booster(plugin=plugin)
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sharded_model, sharded_optimizer, criterion, _, _ = booster.boost(sharded_model, sharded_optimizer, criterion)
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return org_model, org_optimizer, sharded_model, sharded_optimizer, criterion, booster
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def run_forward_backward_with_hybrid_plugin(org_model: Module, sharded_model: Module, sharded_optimizer: Optimizer,
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data_gen_fn: Callable, output_transform_fn: Callable, criterion: Callable,
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booster: Booster):
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org_model.cuda()
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sharded_model.cuda()
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def _criterion(outputs, inputs):
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outputs = output_transform_fn(outputs)
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loss = criterion(outputs)
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return loss
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data = data_gen_fn()
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if booster.plugin.enable_sequence_parallelism and booster.plugin.tp_size != 0:
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seq_len = data['input_ids'].shape[1]
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lcm = booster.plugin.tp_size * seq_len // math.gcd(booster.plugin.tp_size, seq_len)
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times = lcm // seq_len
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input_shape = data['input_ids'].shape
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for k, v in data.items():
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if v.shape == input_shape:
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data[k] = v.repeat(1, times)
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sharded_model.train()
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if booster.plugin.stage_manager is not None:
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for k, v in data.items():
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if torch.is_tensor(v) or 'Tensor' in v.__class__.__name__:
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new_shape = [1] * v.dim()
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new_shape[0] = 4
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data[k] = v.to('cuda').repeat(*new_shape)
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data_iter = iter([data])
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sharded_output = booster.execute_pipeline(data_iter,
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sharded_model,
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_criterion,
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sharded_optimizer,
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return_loss=True,
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return_outputs=True)
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sharded_loss = sharded_output['loss']
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else:
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data = {k: v.cuda() for k, v in data.items()}
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sharded_output = sharded_model(**data)
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sharded_loss = criterion(sharded_output)
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sharded_optimizer.backward(sharded_loss)
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org_model.train()
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data = {k: v.cuda() for k, v in data.items()}
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org_output = org_model(**data)
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org_loss = criterion(org_output)
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org_loss.backward()
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return org_loss, org_output, sharded_loss, sharded_output
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def check_output_hidden_state(org_output: Tensor,
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sharded_output: Tensor,
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stage_manager: Optional[PipelineStageManager] = None,
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atol: float = 1e-5,
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rtol: float = 1e-3,
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dim: int = 0):
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org_hidden_state = org_output.last_hidden_state
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if stage_manager is None:
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sharded_hidden_state = sharded_output.last_hidden_state
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if stage_manager and stage_manager.is_last_stage():
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sharded_hidden_state = torch.cat([output.last_hidden_state for output in sharded_output['outputs']], dim=dim)
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assert torch.allclose(org_hidden_state.float(), sharded_hidden_state.float(), atol=atol, rtol=rtol), \
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f"shard model's output hidden state is not equal to origin model's last hidden state\n{org_hidden_state}\n{sharded_hidden_state}"
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def check_loss(org_loss: Tensor, sharded_loss: Tensor, atol: float = 1e-5, rtol: float = 1e-3):
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assert torch.allclose(org_loss.float(), sharded_loss.float(), atol=atol, rtol=rtol), \
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f"shard model loss is not equal to origin model loss\n{org_loss}\n{sharded_loss}"
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def check_weight(org_model: Module,
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sharded_model: Module,
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layer_suffix: List[str],
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tp_group: Optional[ProcessGroup] = None,
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dim: int = 0,
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atol: float = 1e-5,
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rtol: float = 1e-3,
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verbose: bool = False):
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for suffix in layer_suffix:
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org_weight = getattr_(org_model, suffix).weight
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sharded_weight = getattr_(sharded_model, suffix).weight
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if is_distributed_tensor(sharded_weight) or is_customized_distributed_tensor(sharded_weight):
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sharded_weight_list = [
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2023-08-11 03:44:23 +00:00
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torch.zeros_like(sharded_weight).to('cuda') for _ in range(dist.get_world_size(tp_group))
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]
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dist.all_gather(sharded_weight_list, sharded_weight, tp_group)
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sharded_weight = torch.cat(sharded_weight_list, dim=dim)
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if verbose and dist.get_rank() == 0:
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print(f"'{suffix}' weight: {org_weight}, {sharded_weight}")
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2023-08-10 05:59:30 +00:00
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assert torch.allclose(org_weight.float(), sharded_weight.float(), atol=atol, rtol=rtol), \
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f"shard model weight {suffix} is not equal to origin model weight\n{org_weight}\n{sharded_weight}"
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2023-08-03 09:50:15 +00:00
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def check_grad(org_model: Module,
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sharded_model: Module,
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layer_suffix: List[str],
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tp_group: ProcessGroup = None,
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dim: int = 0,
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atol: float = 1e-5,
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rtol: float = 1e-3,
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verbose: bool = False):
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for suffix in layer_suffix:
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org_grad = getattr_(org_model, suffix).weight.grad
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shard_grad = getattr_(sharded_model, suffix).weight.grad
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shard_weight = getattr_(sharded_model, suffix).weight
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if is_distributed_tensor(shard_weight) or is_customized_distributed_tensor(shard_weight):
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2023-08-11 03:44:23 +00:00
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shard_grad_list = [torch.zeros_like(shard_grad).to('cuda') for _ in range(dist.get_world_size(tp_group))]
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2023-08-03 09:50:15 +00:00
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dist.all_gather(shard_grad_list, shard_grad, tp_group)
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shard_grad = torch.cat(shard_grad_list, dim=dim)
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# embedding may be resized when using tensor parallel
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if shard_grad.shape[0] > org_grad.shape[0]:
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shard_grad = shard_grad[:org_grad.shape[0], :]
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if verbose and dist.get_rank() == 0:
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print(f"'{suffix}' grad: {org_grad}, {shard_grad}")
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assert torch.allclose(
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org_grad.float(), shard_grad.float(), rtol=rtol, atol=atol
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), f"error attribute '{suffix}', orgin model grad is not equal to shard model grad\n{org_grad}\n{shard_grad}"
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def unwrap_model(module: Module,
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base_model_class_name: Optional[str] = None,
|
|
|
|
base_model_attribute_name: Optional[str] = None):
|
|
|
|
if isinstance(module, HybridParallelModule):
|
|
|
|
module = module.unwrap()
|
|
|
|
if base_model_class_name is None:
|
|
|
|
return module
|
|
|
|
if module.__class__.__name__ == base_model_class_name:
|
|
|
|
return module
|
|
|
|
return getattr(module, base_model_attribute_name, None)
|