ColossalAI/tests/test_zero_data_parallel/common.py

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from functools import partial
import torch
import torch.distributed as dist
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from colossalai.logging import get_dist_logger
from colossalai.utils import checkpoint
from colossalai.zero.shard_utils import TensorShardStrategy
from colossalai.zero.sharded_model import ShardedModelV2
LOGGER = get_dist_logger('zero_test')
MP_PARALLEL_CONFIG = dict(fp16=dict(mode=None,), parallel=dict(pipeline=dict(size=1), tensor=dict(size=2, mode=None)))
_ZERO_MODEL_CONFIG = dict(reduce_scatter_bucket_size_mb=25,
fp32_reduce_scatter=False,
offload_config=None,
gradient_predivide_factor=1.0,
use_memory_tracer=False,
shard_strategy=TensorShardStrategy(),
reuse_fp16_shard=False)
_ZERO_OPTIMIZER_CONFIG = dict(cpu_offload=False,
initial_scale=2**5,
min_scale=1,
growth_factor=2,
backoff_factor=0.5,
growth_interval=1000,
hysteresis=2,
max_scale=2**32)
ZERO_PARALLEL_CONFIG = dict(fp16=dict(mode=None,),
zero=dict(
model_config=_ZERO_MODEL_CONFIG,
optimizer_config=_ZERO_OPTIMIZER_CONFIG,
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),
parallel=dict(pipeline=dict(size=1), tensor=dict(size=1, mode=None)))
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CONFIG = dict(fp16=dict(mode=None,),
zero=dict(level=3,
verbose=False,
offload_optimizer_config=dict(device='cpu', pin_memory=True, buffer_count=5, fast_init=False),
offload_param_config=dict(device='cpu',
pin_memory=True,
buffer_count=5,
buffer_size=1e8,
max_in_cpu=1e9)),
parallel=dict(pipeline=dict(size=1), tensor=dict(size=1, mode=None)))
def run_fwd_bwd(model, data, label, criterion, enable_autocast=False):
model.train()
with torch.cuda.amp.autocast(enabled=enable_autocast):
if criterion:
y = model(data)
loss = criterion(y, label)
else:
loss = model(data, label)
loss = loss.float()
if isinstance(model, ShardedModelV2):
model.backward(loss)
else:
loss.backward()
def checkpoint_wrapper(module, enable=True):
if enable:
module.forward = partial(checkpoint, module.forward)
return module
def allclose(tensor_a: torch.Tensor, tensor_b: torch.Tensor, loose=False) -> bool:
if loose:
return torch.allclose(tensor_a, tensor_b, atol=1e-2, rtol=1e-3)
return torch.allclose(tensor_a, tensor_b)
def check_grads(model, zero_model, loose=False):
for p, zero_p in zip(model.parameters(), zero_model.parameters()):
zero_grad = zero_p.grad.clone().to(p.device)
grad = p.grad.float()
assert grad.dtype == zero_grad.dtype
assert allclose(grad, zero_grad, loose=loose)
def check_params(model, zero_model, loose=False):
for p, zero_p in zip(model.parameters(), zero_model.parameters()):
zero_p = zero_p.clone().to(p.device)
# assert p.dtype == zero_p.dtype
assert allclose(p.float(), zero_p.float(), loose=loose), f"diff {p.float() - zero_p.float()}"
def check_grads_padding(model, zero_model, loose=False):
rank = dist.get_rank()
for p, zero_p in zip(model.parameters(), zero_model.parameters()):
zero_grad = zero_p.grad.clone().to(p.device)
chunks = torch.flatten(p.grad).chunk(dist.get_world_size())
if rank >= len(chunks):
continue
grad = chunks[rank].float()
if zero_grad.size(0) > grad.size(0):
zero_grad = zero_grad[:grad.size(0)]
assert grad.dtype == zero_grad.dtype
assert allclose(grad, zero_grad, loose=loose), f'diff: {grad - zero_grad}'
def check_params_padding(model, zero_model, loose=False):
rank = dist.get_rank()
for p, zero_p in zip(model.parameters(), zero_model.parameters()):
zero_p = zero_p.clone().to(p.device)
chunks = torch.flatten(p).chunk(dist.get_world_size())
if rank >= len(chunks):
continue
p = chunks[rank]
if zero_p.size(0) > p.size(0):
zero_p = zero_p[:p.size(0)]
assert p.dtype == zero_p.dtype
assert allclose(p, zero_p, loose=loose)
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def check_sharded_model_params(model, zero_model, loose=False, reuse_fp16_shard=False):
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rank = dist.get_rank()
for p, zero_p in zip(model.parameters(), zero_model.parameters()):
if reuse_fp16_shard:
zero_p = zero_p.data.to(p.device).float()
else:
zero_p = zero_p.col_attr.sharded_data_tensor.payload.to(p.device).float()
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chunks = torch.flatten(p).chunk(dist.get_world_size())
if rank >= len(chunks):
continue
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p = chunks[rank].float()
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if zero_p.size(0) > p.size(0):
zero_p = zero_p[:p.size(0)]
assert p.dtype == zero_p.dtype
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assert allclose(p, zero_p, loose=loose), f'{p} vs {zero_p}'