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[optim] refactor fused sgd (#1134)

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pull/1138/head
ver217 2 years ago committed by GitHub
parent d26902645e
commit e4f555f29a
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2 changed files with 31 additions and 135 deletions
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71
colossalai/kernel/cuda_native/csrc/multi_tensor_sgd_kernel.cu
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@ -28,10 +28,10 @@
* first run : necessary for proper momentum handling & init * first run : necessary for proper momentum handling & init
* wd_after_momentum : apply weight decay _after_ momentum instead of before * wd_after_momentum : apply weight decay _after_ momentum instead of before
**/ **/
template <int N, typename T_grad, typename T_weight> template <typename T_grad, typename T_weight>
struct SGDFunctor { struct SGDFunctor {
__device__ __forceinline__ void operator()( __device__ __forceinline__ void operator()(
int chunk_size, volatile int *noop_gmem, TensorListMetadata<N> &tl, int chunk_size, volatile int *noop_gmem, TensorListMetadata<3> &tl,
float wd, float momentum, float dampening, float lr, bool nesterov, float wd, float momentum, float dampening, float lr, bool nesterov,
bool first_run, bool wd_after_momentum, float scale) { bool first_run, bool wd_after_momentum, float scale) {
// Early exit if we don't need to do anything // Early exit if we don't need to do anything
@ -50,12 +50,6 @@ struct SGDFunctor {
T_weight *mom_in = (T_weight *)tl.addresses[2][tensor_loc]; T_weight *mom_in = (T_weight *)tl.addresses[2][tensor_loc];
mom_in += chunk_idx * chunk_size; mom_in += chunk_idx * chunk_size;
at::Half *model_weights_out = nullptr;
if (N == 4) {
model_weights_out = (at::Half *)tl.addresses[3][tensor_loc];
model_weights_out += chunk_idx * chunk_size;
}
n -= chunk_idx * chunk_size; n -= chunk_idx * chunk_size;
// Non-divergent exit condition for the __syncthreads // Non-divergent exit condition for the __syncthreads
@ -110,10 +104,6 @@ struct SGDFunctor {
// adjust the weight and write out // adjust the weight and write out
weight_in[i] += (-lr * incoming_grads[ii]); weight_in[i] += (-lr * incoming_grads[ii]);
// if necessary, write out an fp16 copy of the weights
if (N == 4)
model_weights_out[i] = static_cast<at::Half>(weight_in[i]);
// also write out the new momentum // also write out the new momentum
if (momentum != 0.f) mom_in[i] = incoming_moms[ii]; if (momentum != 0.f) mom_in[i] = incoming_moms[ii];
} }
@ -131,20 +121,14 @@ void multi_tensor_sgd_cuda(int chunk_size, at::Tensor noop_flag,
auto grad_type = tensor_lists[0][0].scalar_type(); auto grad_type = tensor_lists[0][0].scalar_type();
auto weight_type = tensor_lists[1][0].scalar_type(); auto weight_type = tensor_lists[1][0].scalar_type();
if (num_tensors == 4)
for (int i = 0; i < tensor_lists[3].size(); i++)
TORCH_CHECK(tensor_lists[3][i].scalar_type() == at::ScalarType::Half,
"Additional output tensors should always be fp16.");
TORCH_CHECK(noop_flag.device() == tensor_lists[0][0].device(), TORCH_CHECK(noop_flag.device() == tensor_lists[0][0].device(),
"expected noop flag to be on the same device as tensors"); "expected noop flag to be on the same device as tensors");
// We have 3 possibilities to handle here, in terms of // We have 3 possibilities to handle here, in terms of
// grad_type, param_type, momentum_type, requires_fp16_copy // grad_type, param_type, momentum_type
// 1. fp16, fp16, fp16, No // 1. fp16, fp16, fp16
// 2. fp32, fp32, fp32, No // 2. fp32, fp32, fp32
// 3. fp16, fp32, fp32, Yes // 3. fp16, fp32, fp32
// 4. fp32, fp32, fp32, Yes // this is the materialize_master_grads=True case
// It's easier to hardcode these possibilities than to use // It's easier to hardcode these possibilities than to use
// switches etc. to handle the cross-product of cases where // switches etc. to handle the cross-product of cases where
// we don't want the majority of them. // we don't want the majority of them.
@ -153,49 +137,22 @@ void multi_tensor_sgd_cuda(int chunk_size, at::Tensor noop_flag,
if (grad_type == at::ScalarType::Half && if (grad_type == at::ScalarType::Half &&
weight_type == at::ScalarType::Half && num_tensors == 3) { weight_type == at::ScalarType::Half && num_tensors == 3) {
multi_tensor_apply<3>(BLOCK_SIZE, chunk_size, noop_flag, tensor_lists, multi_tensor_apply<3>(BLOCK_SIZE, chunk_size, noop_flag, tensor_lists,
SGDFunctor<3, at::Half, at::Half>(), wd, momentum, SGDFunctor<at::Half, at::Half>(), wd, momentum,
dampening, lr, nesterov, first_run, wd_after_momentum, dampening, lr, nesterov, first_run, wd_after_momentum,
scale); scale);
} }
// Case 2. fp16, fp32, fp32, No // Case 2. fp32, fp32, fp32
// else if (grad_type == at::ScalarType::Half &&
// weight_type == at::ScalarType::Float &&
// num_tensors == 3) {
// multi_tensor_apply<3>(
// BLOCK_SIZE,
// chunk_size,
// noop_flag,
// tensor_lists,
// SGDFunctor<3, at::Half, float>(),
// wd,
// momentum,
// dampening,
// lr,
// nesterov,
// first_run,
// wd_after_momentum);
// }
// Case 2. fp32, fp32, fp32, No
else if (grad_type == at::ScalarType::Float && else if (grad_type == at::ScalarType::Float &&
weight_type == at::ScalarType::Float && num_tensors == 3) { weight_type == at::ScalarType::Float && num_tensors == 3) {
multi_tensor_apply<3>(BLOCK_SIZE, chunk_size, noop_flag, tensor_lists, multi_tensor_apply<3>(BLOCK_SIZE, chunk_size, noop_flag, tensor_lists,
SGDFunctor<3, float, float>(), wd, momentum, SGDFunctor<float, float>(), wd, momentum, dampening,
dampening, lr, nesterov, first_run, wd_after_momentum, lr, nesterov, first_run, wd_after_momentum, scale);
scale);
} }
// Case 3. fp16, fp32, fp32, Yes // Case 3. fp16, fp32, fp32
else if (grad_type == at::ScalarType::Half && else if (grad_type == at::ScalarType::Half &&
weight_type == at::ScalarType::Float && num_tensors == 4) { weight_type == at::ScalarType::Float && num_tensors == 3) {
multi_tensor_apply<4>(BLOCK_SIZE, chunk_size, noop_flag, tensor_lists, multi_tensor_apply<3>(BLOCK_SIZE, chunk_size, noop_flag, tensor_lists,
SGDFunctor<4, at::Half, float>(), wd, momentum, SGDFunctor<at::Half, float>(), wd, momentum,
dampening, lr, nesterov, first_run, wd_after_momentum,
scale);
}
// Case 4. fp32, fp32, fp32, Yes
else if (grad_type == at::ScalarType::Float &&
weight_type == at::ScalarType::Float && num_tensors == 4) {
multi_tensor_apply<4>(BLOCK_SIZE, chunk_size, noop_flag, tensor_lists,
SGDFunctor<4, float, float>(), wd, momentum,
dampening, lr, nesterov, first_run, wd_after_momentum, dampening, lr, nesterov, first_run, wd_after_momentum,
scale); scale);
} else { } else {

95
colossalai/nn/optimizer/fused_sgd.py
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@ -64,9 +64,7 @@ class FusedSGD(Optimizer):
dampening=0, dampening=0,
weight_decay=0, weight_decay=0,
nesterov=False, nesterov=False,
wd_after_momentum=False, wd_after_momentum=False):
materialize_master_grads=True,
set_grad_none=False):
if lr is not required and lr < 0.0: if lr is not required and lr < 0.0:
raise ValueError("Invalid learning rate: {}".format(lr)) raise ValueError("Invalid learning rate: {}".format(lr))
if momentum < 0.0: if momentum < 0.0:
@ -80,10 +78,6 @@ class FusedSGD(Optimizer):
super(FusedSGD, self).__init__(params, defaults) super(FusedSGD, self).__init__(params, defaults)
self.wd_after_momentum = wd_after_momentum self.wd_after_momentum = wd_after_momentum
self.materialize_master_grads = materialize_master_grads
self.most_recent_scale = 1.0
self.scale_set_by_backward = False
self.set_grad_none = set_grad_none
if multi_tensor_applier.available: if multi_tensor_applier.available:
import colossal_C import colossal_C
@ -100,14 +94,6 @@ class FusedSGD(Optimizer):
for group in self.param_groups: for group in self.param_groups:
group.setdefault('nesterov', False) group.setdefault('nesterov', False)
def zero_grad(self):
if self.set_grad_none:
for group in self.param_groups:
for p in group['params']:
p.grad = None
else:
super(FusedSGD, self).zero_grad()
def get_momentums(self, params): def get_momentums(self, params):
momentums = [] momentums = []
first_run = True first_run = True
@ -136,74 +122,27 @@ class FusedSGD(Optimizer):
if closure is not None: if closure is not None:
loss = closure() loss = closure()
explicit_master_params = (hasattr(self, "_amp_stash") and hasattr(self._amp_stash, "fp32_from_fp16_groups")) for group in self.param_groups:
for gid, group in enumerate(self.param_groups):
weight_decay = group['weight_decay'] weight_decay = group['weight_decay']
momentum = group['momentum'] momentum = group['momentum']
dampening = group['dampening'] dampening = group['dampening']
nesterov = group['nesterov'] nesterov = group['nesterov']
# For each group, there are 3 possible combinations we need to consider: # For each group, there are 3 possible combinations we need to consider:
# grad_type, param_to_update_type, momentum_type, requires_fp16_model_copy # grad_type, param_to_update_type, momentum_type
# 1. fp16, fp16, fp16, No # 1. fp16, fp16, fp16
# 2. fp32, fp32, fp32, No # 2. fp32, fp32, fp32
# 3. fp16, fp32, fp32, Yes # 3. fp16, fp32, fp32
g_l, p_l = [], []
first_runs = [True, True] for p in group['params']:
if p.grad is None:
# I think a bit of code divergence in exchange for naming clarity is worthwhile continue
if explicit_master_params: if p.grad.data.is_sparse:
stash = self._amp_stash raise RuntimeError('FusedSGD does not support sparse gradients')
g_l.append(p.grad)
fp32_params = [p for p in stash.fp32_from_fp32_groups[gid] if p.grad is not None] p_l.append(p)
fp32_grads = [p.grad for p in stash.fp32_from_fp32_groups[gid] if p.grad is not None] m_l, first_run = self.get_momentums(p_l)
fp32_momentums, first_runs[1] = self.get_momentums(fp32_params) multi_tensor_applier(self.multi_tensor_sgd, self._dummy_overflow_buf, [g_l, p_l, m_l], weight_decay,
momentum, dampening, group['lr'], nesterov, first_run, self.wd_after_momentum, 1.0)
if self.materialize_master_grads:
fp16_model_params = [
p for i, p in enumerate(stash.fp16_groups[gid])
if stash.fp32_from_fp16_groups[gid][i].grad is not None
]
fp32_from_fp16_grads = [p.grad for p in stash.fp32_from_fp16_groups[gid] if p.grad is not None]
fp32_from_fp16_params = [p for p in stash.fp32_from_fp16_groups[gid] if p.grad is not None]
fp32_from_fp16_momentums, first_runs[0] = self.get_momentums(fp32_from_fp16_params)
fp16_set = [
fp32_from_fp16_grads, fp32_from_fp16_params, fp32_from_fp16_momentums, fp16_model_params
]
else:
fp16_model_params = [p for p in stash.fp16_groups[gid] if p.grad is not None]
fp16_model_grads = [p.grad for p in stash.fp16_groups[gid] if p.grad is not None]
fp32_from_fp16_params = [
p for i, p in enumerate(stash.fp32_from_fp16_groups[gid])
if stash.fp16_groups[gid][i].grad is not None
]
fp32_from_fp16_momentums, first_runs[0] = self.get_momentums(fp32_from_fp16_params)
fp16_set = [fp16_model_grads, fp32_from_fp16_params, fp32_from_fp16_momentums, fp16_model_params]
launch_sets = [fp16_set, [fp32_grads, fp32_params, fp32_momentums]]
else:
fp16_params = [p for p in group['params'] if (p.dtype == torch.float16 and p.grad is not None)]
fp16_grads = [p.grad for p in group['params'] if (p.dtype == torch.float16 and p.grad is not None)]
fp16_momentums, first_runs[0] = self.get_momentums(fp16_params)
fp32_params = [p for p in group['params'] if (p.dtype == torch.float32 and p.grad is not None)]
fp32_grads = [p.grad for p in group['params'] if (p.dtype == torch.float32 and p.grad is not None)]
fp32_momentums, first_runs[1] = self.get_momentums(fp32_params)
launch_sets = [[fp16_grads, fp16_params, fp16_momentums], [fp32_grads, fp32_params, fp32_momentums]]
for s, (launch_set, first_run) in enumerate(zip(launch_sets, first_runs)):
assert len(launch_set[0]) == len(launch_set[1])
assert len(launch_set[0]) == len(launch_set[2])
if len(launch_set[0]) > 0:
multi_tensor_applier(self.multi_tensor_sgd, self._dummy_overflow_buf, launch_set, weight_decay,
momentum, dampening, group['lr'], nesterov, first_run, self.wd_after_momentum,
1.0 / self.most_recent_scale)
self.most_recent_scale = 1.0
self.scale_set_by_backward = False
return loss return loss

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