fix(fsdp): add mix-precision training

2023-09-07 17:11:01 +08:00 · 2023-09-07 17:11:01 +08:00 · 420e883d76
parent 85c6ed6473
commit 420e883d76
1 changed files with 81 additions and 9 deletions
--- a/internlm/solver/optimizer/hybrid_zero_optim.py
+++ b/internlm/solver/optimizer/hybrid_zero_optim.py
@ -112,6 +112,28 @@ class FSDPadaptOptimizer(BaseOptimizer):
        self._clip_grad_norm = zero_cfg.clip_grad_norm
        self.use_fsdp = gpc.config.parallel.use_fsdp

+        # mark whether a module is part of TP or not
+        is_tensor_parallel_dict = dict()
+
+        # fp16 and fp32 params
+        # fp16 share mem space with model.FlatParam, fp32 share mem space with optim.param_group
+        self._fp16_param_groups = dict()
+        self._fp32_param_tensor_groups = dict()
+
+        # init fp16 and fp32 params
+        for group_idx, param_group in enumerate(self.optim.param_groups):
+            group_params = param_group["params"]
+
+            # fp16 FlatParam storage
+            self._fp16_param_groups[group_idx] = group_params
+
+            # create copy of fp32 weight
+            fp32_tensor_param = [param.data.float().requires_grad_(True) for param in group_params]
+            self._fp32_param_tensor_groups[group_idx] = fp32_tensor_param
+
+            # replace
+            param_group["params"] = fp32_tensor_param
+
    @property
    def loss_scale(self):
        return self.grad_scaler.scale
@ -120,12 +142,28 @@ class FSDPadaptOptimizer(BaseOptimizer):
        loss = self.loss_scale * loss
        loss.backward(retain_graph=retain_graph)

+    def _compute_norm_with_fsdp_flatten(self, group_id):
+        params = self._fp16_param_groups[group_id]
+        gradients = [p.grad for p in params]
+        norm_group = compute_norm(
+            gradients=gradients,
+            parameters=params,
+            last_stage=True
+        )
+        
+        return norm_group
+
+    def zero_grad(self):
+        for _, param_group in self._fp16_param_groups.items():
+            for param in param_group:
+                param.grad = None
+
    def step(self):
        # in case that fsdp-zero3 size is not equal to dp size
        # FSDP module will only reduce gradient within FSDP process group
        # so manually reduce grad is essential between two parallel FSDP process group
        for group_idx in range(len(self.param_groups)):
-            params = self.param_groups[group_idx]["params"]
+            params = self._fp16_param_groups[group_idx]
            for param in params:
                if param.requires_grad:
                    reduce_tensor(tensor=param.grad, parallel_mode=ParallelMode.ZERO3_DP)
@ -134,13 +172,7 @@ class FSDPadaptOptimizer(BaseOptimizer):
        found_inf = False
        norm_groups = []
        for group_idx in range(len(self.param_groups)):
-            params = self.param_groups[group_idx]["params"]
-            gradients = [p.grad for p in params]
-            norm_group = compute_norm(
-                gradients=gradients,
-                parameters=params,
-                last_stage=True
-            )
+            norm_group = self._compute_norm_with_fsdp_flatten(group_idx)
            if norm_group == -1:
                found_inf = True
                break
@ -157,15 +189,32 @@ class FSDPadaptOptimizer(BaseOptimizer):
        if self._clip_grad_norm > 0:
            global_norm = sum(norm_groups) ** 0.5       

+        # create gradient for fp32 params
+        for group_idx in range(len(self.param_groups)):
+            dtype = self._fp32_param_tensor_groups[group_idx][0].dtype
+            fp16_params = self._fp16_param_groups[group_idx]
+            grad_fp32 = [p.grad.to(dtype) for p in fp16_params]
+
+            device = self._fp32_param_tensor_groups[group_idx][0].device
+            for p, g in zip(self._fp32_param_tensor_groups[group_idx], grad_fp32):
+                p.grad = g.to(device)
+
        # unscale
        for group_idx in range(len(self.param_groups)):
-            params = self.param_groups[group_idx]["params"]
+            params = self._fp32_param_tensor_groups[group_idx]
            for p in params:
                self._unscale_and_clip_grads(p.grad, global_norm, loss_scale)

        self.optim.step() 
        self.zero_grad()

+        # update fp16 param
+        for group_idx in range(len(self._fp16_param_groups)):
+            fp16_params = self._fp16_param_groups[group_idx]
+            fp32_tensor_params = self._fp32_param_tensor_groups[group_idx]
+            for p, q in zip(fp16_params, fp32_tensor_params):
+                p.data.copy_(q)
+
        return True, [global_norm / loss_scale]

    def clip_grad_norm(self, model, max_norm):
@ -196,6 +245,11 @@ class FSDPadaptOptimizer(BaseOptimizer):
        optim_states = self.optim.state_dict()
        states["base_optim_states"] = optim_states

+        flat_fp32_weights = {}
+        for group_idx, param in self._fp32_param_tensor_groups.items():
+            flat_fp32_weights[group_idx] = param
+        states["flat_fp32_weights"] = flat_fp32_weights
+
        return states

    def load_state_dict(self, states):
@ -205,6 +259,24 @@ class FSDPadaptOptimizer(BaseOptimizer):
        optim_states = states["base_optim_states"]
        self.optim.load_state_dict(optim_states)

+        # load fp32 optimizer weight
+        flat_fp32_weights = states["flat_fp32_weights"]
+        assert set(flat_fp32_weights.keys()) == set(self._fp32_param_tensor_groups)
+        for group_idx, param in flat_fp32_weights.items():
+            self_param = self._fp32_param_tensor_groups[group_idx]
+            assert (
+                len(self_param) == len(param)
+            ), f"The number of flat tensor is inconsistent, {len(self_param)} != {len(param)}"
+            for p, q in zip(self_param, param):
+                p.data.copy_(q.data)
+
+        # load fp16 model weight
+        for group_idx, param in flat_fp32_weights.items():
+            fp16_param = self._fp16_param_groups[group_idx]
+            fp32_param = self._fp32_param_tensor_groups[group_idx]
+            for p, q in zip(fp16_param, fp32_param):
+                p.data.copy_(q.data)
+

 class HybridZeroOptimizer(BaseOptimizer):
    """