[format] polish name format for MOE (#481)

3 years ago · 65c0f380c2
parent 8d3250d74b
commit 65c0f380c2
6 changed files with 45 additions and 32 deletions
--- a/colossalai/context/moe_context.py
+++ b/colossalai/context/moe_context.py
@ -1,6 +1,7 @@
 import torch
 import torch.distributed as dist
 from .parallel_mode import ParallelMode
+from typing import Tuple


 def _check_sanity():
@ -10,7 +11,7 @@ def _check_sanity():
                                  "pipeline parallel at present.")


-class MoeInfo:
+class MoeParallelInfo:
    """Moe parallelism information, storing parallel sizes and groups.
    """

@ -78,11 +79,11 @@ class MoeContext:
        self.use_kernel_optim = True

        self.has_setup = False
-        self._info_dict = dict()
+        self._parallel_info_dict = dict()

    @property
-    def information(self):
-        return self._info_dict
+    def parallel_info_dict(self):
+        return self._parallel_info_dict

    @property
    def is_initialized(self):
@ -110,17 +111,27 @@ class MoeContext:
        moe_set_seed(seed)
        self.has_setup = True

-    def get_info(self, num_experts: int):
-        """Automatically deploys experts and returns parallel infomation about
-        distributed communication groups.
+    def get_info(self, num_experts: int) -> Tuple[int, MoeParallelInfo]:
+        """Calculate the Data Parallel Group and Expert Parallel Group.
+
+        Parameters
+        ----------
+        num_experts : int
+            The number experts
+
+        Returns
+        -------
+        int, MoeParallelInfo
+            number of local experts, the MoeParallelInfo of the current ep_size
        """

        gt_flag = num_experts % self.max_ep_size == 0    # check whether num_experts is greater
        lt_flag = self.max_ep_size % num_experts == 0    # check whether num_experts is less

-        assert gt_flag or lt_flag, "Automatic experts placement do not support such situation right now."
+        assert gt_flag or lt_flag, "Automatic experts placement dose not not support expert number"\
+                            " is not a multiple of ep size or vice versa."

-        # If the number of experts is greater than maximum expert parallel size,
+        # If the number of experts is greater than maximum expert parallel size. a.k.a ep_size,
        # there are multiple experts in each GPU and each GPU has different experts
        # So it's data parallel size is 1
        # Otherwise, there is only one expert in each GPU
@ -133,10 +144,10 @@ class MoeContext:

        # Don't forget to multiply minimum data parallel size
        dp_size *= self.min_dp_size
-        if not (ep_size in self.information):
-            self.information[ep_size] = MoeInfo(ep_size, dp_size)
+        if not (ep_size in self.parallel_info_dict):
+            self.parallel_info_dict[ep_size] = MoeParallelInfo(ep_size, dp_size)

-        return num_local_experts, self.information[ep_size]
+        return num_local_experts, self.parallel_info_dict[ep_size]

    def set_kernel_not_use(self):
        self.use_kernel_optim = False
--- a/colossalai/engine/gradient_handler/_moe_gradient_handler.py
+++ b/colossalai/engine/gradient_handler/_moe_gradient_handler.py
@ -31,4 +31,5 @@ class MoeGradientHandler(BaseGradientHandler):

            for ep_size in param_dict:
                if ep_size != 1 and ep_size != MOE_CONTEXT.world_size:
-                    bucket_allreduce(param_list=param_dict[ep_size], group=MOE_CONTEXT.information[ep_size].dp_group)
+                    bucket_allreduce(param_list=param_dict[ep_size],
+                                     group=MOE_CONTEXT.parallel_info_dict[ep_size].dp_group)
--- a/colossalai/nn/layer/moe/experts.py
+++ b/colossalai/nn/layer/moe/experts.py
@ -5,6 +5,7 @@ import torch.nn as nn
 from colossalai.context import ParallelMode, seed
 from colossalai.utils import get_current_device
 from colossalai.core import MOE_CONTEXT
+from typing import Type


 class MoeExperts(nn.Module):
@ -34,12 +35,12 @@ class Experts(MoeExperts):
    :type num_experts: int
    """

-    def __init__(self, expert, num_experts, **expert_args):
+    def __init__(self, expert_cls: Type[nn.Module], num_experts: int, **expert_args):
        super().__init__("all_to_all", num_experts)

        # Use seed to make every expert different from others
        with seed(ParallelMode.TENSOR):
-            self.experts = nn.ModuleList([expert(**expert_args) for _ in range(self.num_local_experts)])
+            self.experts = nn.ModuleList([expert_cls(**expert_args) for _ in range(self.num_local_experts)])

        # Attach parallel information for all parameters in Experts
        for exp in self.experts:
--- a/colossalai/utils/moe.py
+++ b/colossalai/utils/moe.py
@ -46,6 +46,6 @@ def sync_moe_model_param(model: nn.Module):
        for ep_size in param_dict:
            # When ep_size = world_size, communication is not needed
            if ep_size != 1 and ep_size != MOE_CONTEXT.world_size:
-                src_rank = dist.get_rank(MOE_CONTEXT.information[ep_size].ep_group)
+                src_rank = dist.get_rank(MOE_CONTEXT.parallel_info_dict[ep_size].ep_group)
                for param in param_dict[ep_size]:
                    dist.broadcast(param, src=src_rank, group=param.moe_info.dp_group)
--- a/tests/test_moe/test_grad_handler.py
+++ b/tests/test_moe/test_grad_handler.py
@ -36,7 +36,7 @@ def run_test(rank, world_size, port):
    model = model.to(get_current_device())
    sync_moe_model_param(model)

-    dist_dict = MOE_CONTEXT.information
+    dist_dict = MOE_CONTEXT.parallel_info_dict
    assert_equal_in_group(layer_list[0].experts.experts[0].weight.data, dist_dict[1].dp_group)
    assert_equal_in_group(layer_list[1].experts.experts[0].weight.data, dist_dict[2].dp_group)
    # MoE model synchronization passed
--- a/tests/test_moe/test_moe_group.py
+++ b/tests/test_moe/test_moe_group.py
@ -1,6 +1,5 @@
 from functools import partial
 import pytest
-import torch
 import torch.nn as nn
 import torch.multiprocessing as mp
 import torch.distributed as dist
@ -16,7 +15,8 @@ D_FF = 8
 CONFIG = dict()


-def run_test(rank, world_size, port):
+def run_test(rank, port):
+    world_size = 4
    colossalai.launch(config=CONFIG, rank=rank, world_size=world_size, host='localhost', port=port, backend='nccl')
    expert_module = nn.Linear
    expert_factor = dict(in_features=D_MODEL, out_features=D_FF, device=get_current_device())
@ -33,36 +33,36 @@ def run_test(rank, world_size, port):
    assert exp3.num_local_experts == 2
    # experts deployment passed

-    dist_dict = MOE_CONTEXT.information
+    parallel_info_dict = MOE_CONTEXT.parallel_info_dict
    rank = dist.get_rank()

-    assert len(dist_dict) == 3
-    assert dist.get_rank(dist_dict[4].ep_group) == rank
-    assert dist.get_rank(dist_dict[2].ep_group) == rank % 2
-    assert dist.get_rank(dist_dict[1].ep_group) == 0
+    assert len(parallel_info_dict) == 3
+    assert dist.get_rank(parallel_info_dict[4].ep_group) == rank
+    assert dist.get_rank(parallel_info_dict[2].ep_group) == rank % 2
+    assert dist.get_rank(parallel_info_dict[1].ep_group) == 0

-    assert dist.get_rank(dist_dict[4].dp_group) == 0
-    assert dist.get_rank(dist_dict[2].dp_group) == rank // 2
-    assert dist.get_rank(dist_dict[1].dp_group) == rank
+    assert dist.get_rank(parallel_info_dict[4].dp_group) == 0
+    assert dist.get_rank(parallel_info_dict[2].dp_group) == rank // 2
+    assert dist.get_rank(parallel_info_dict[1].dp_group) == rank
    # group creation passed

    model = nn.ModuleList([exp0, exp1, exp2, exp3])
    model = model.to(get_current_device())
    sync_moe_model_param(model)

-    assert_equal_in_group(exp0.experts[0].weight.data, dist_dict[1].dp_group)
-    assert_equal_in_group(exp0.experts[0].bias.data, dist_dict[1].dp_group)
+    assert_equal_in_group(exp0.experts[0].weight.data, parallel_info_dict[1].dp_group)
+    assert_equal_in_group(exp0.experts[0].bias.data, parallel_info_dict[1].dp_group)
    # MOE experts layout success when ep_size = 1

-    assert_equal_in_group(exp1.experts[0].weight.data, dist_dict[2].dp_group)
-    assert_equal_in_group(exp1.experts[0].bias.data, dist_dict[2].dp_group)
+    assert_equal_in_group(exp1.experts[0].weight.data, parallel_info_dict[2].dp_group)
+    assert_equal_in_group(exp1.experts[0].bias.data, parallel_info_dict[2].dp_group)
    # MOE experts layout success when ep_size = 2


@pytest.mark.dist
 def test_moe_initialization():
    world_size = 4
-    run_func = partial(run_test, world_size=world_size, port=free_port())
+    run_func = partial(run_test, port=free_port())
    mp.spawn(run_func, nprocs=world_size)